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2698 lines
133 KiB
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Open Research Online
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Citation
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Lovatt, Peter (2002). The radio war waged by the Royal Air Force against Germany, 19401945. PhD thesis The Open University.
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URL
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https://oro.open.ac.uk/63217/
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License
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(CC-BY-NC-ND 4.0) Creative Commons: Attribution-Noncommercial-No Derivative Works 4.0
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https://creativecommons.org/licenses/by-nc-nd/4.0/
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Policy
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This document has been downloaded from Open Research Online, The Open University's repository of research publications. This version is being made available in accordance with Open Research Online policies available from Open Research Online (ORO) Policies
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Versions
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If this document is identified as the Author Accepted Manuscript it is the version after peer review but before type setting, copy editing or publisher branding
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ABSTRACT
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This thesis explores the origins of the Radio War, which
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started in 1940, and explains how the United Kingdom came to
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fight a defensive campaign until 1942. In the first part of the
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thesis the Luftwaffe use of beacons and beams for navigation
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and bombing purposes is explored, together with the actions
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taken by the Royal Air Force to frustrate the Luftwaffe from
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using these aids and preventing the destruction of British cities
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and industry, which clearly would have been totally disastrous.
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The second part examines the reasons, which led the Royal Air
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Force in 1942 to adopt a more offensive posture in order to
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provide protection to allied bomber aircraft from the effect of the
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greatly improved German radar-controlled defences.
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The thesis justifies the creation of entirely new formations
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to control the application of countermeasures and reveals how
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the headquarters of the new formations were provided with the
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latest German intelligence information, essential to their role.
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The thesis goes on to investigate the critical part played by
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British Research, with especial reference to the
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Telecommunication Research Establishment. The thesis
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demonstrates how the Royal Air Force was forced to create a
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radio countermeasure organisation at a critical time in 1940, at
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the beginning of the German bombing campaign against the
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United Kingdom, how the application of these measures helped
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to protect Royal Air Force bomber aircraft and later successfully
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assisted in D-Day deception and radio countermeasure plans.
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THE RADIO WAR
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WAGED BY THE
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ROYAL AIR FORCE
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AGAINST
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GERMANY,
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1940 - 1945
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SUBMISSION DETAILS
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THE RADIO WAR WAGED BY THE ROYAL AIR FORCE AGAINST GERMANY 1940-1945
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Peter Lovatt, BA MCMI
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PhD
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Department of History
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Date of Submission – 15 November 2002
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Name of Sponsor and Collaborating Establishment - None
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i
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ACKNOWLEDGMENTS
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One morning, over fifty years ago, I was sitting in the
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Intelligence Room at RAF Oulton, reading the after-raid reports
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from the previous night's operations, little realising that one day
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I should be in a position to write about the highly secret
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||
activities in which I was involved. In researching and writing
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||
this thesis I have been fortunate in the help and support I have
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received from my Supervisor, Professor Arthur Marwick.
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Without his advice, expertise and, above all, encouragement, it
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would not have been written. I should like to thank Dr Annika
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Mombauer for her suggestions and assistance and also Dr
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Christina Goulter for her helpful comments. I owe a debt of
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||
gratitude to Mr Peter Mapp of Devizes who has generously given
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his time and expertise helping me to present the thesis in the
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||
required format.
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I wish to acknowledge the permission of the Controller of
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Her Majesty's Stationery Office to quote from publications and
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all official records in which the Copyright is vested in the
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Crown. I also wish to thank the Librarian of the former TRE
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Library at Malvern, now styled the Defence Evaluation Research
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Agency, for bringing the history of No 80 (Signals) Wing and Dr
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Cockburn's The Radio War to my attention, and also to the
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Chief Librarian of the Joint Services Command and Staff
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College, Mr Christopher Hobson, for confirming that both
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||
remain unpublished. I am also grateful to the Centre for the
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History of Defence Electronics (ChiDE) of Bournemouth
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University, which uses the latest information technology to
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convey technical and social history in a readily accessible way.
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Lastly I should like to thank Air Commodore D.M. Reader, a
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former RAF Signals Specialist, for his help and co-operation.
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Devizes, Wiltshire July 2002 Peter Lovatt
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ii
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CONTENTS Page
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Submission Details
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Acknowledgements i
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Contents ii
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Maps and Diagrams vii
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Glossary viii
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VOLUME 1 THE DEFENSIVE PHASE 1
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Introduction 2
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Chapter 1 Wireless, Signals Intelligence,
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||
Government Code and Cypher School and the Formation of, and Fight for, the Royal Air Force
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1. Marconi and the Beginnings of Signals Intelligence
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26
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2. The Royal Air Force 1919-1933 34
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3. Hitler and Enigma 36
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4. Radar and the Integrated Air Defence of the UK
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40
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5. Telecommunications Research Establishment (TRE) and the Start of Radio Countermeasures
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48
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6. Fighter and Bomber Commands 51
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||
7. Development of Radar in Germany 52
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||
8. Development of Radio in Germany 54
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||
Chapter 2 German Beams and Beacons
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1. KGr 100, X-Verfahren and Knickebein 62
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||
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||
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||
iii
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||
CONTENTS Page
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||
Chapter 2 (contd.)
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||
2. Denmark, Norway, the Blitzkrieg and Dunkirk
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||
63
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||
3. Knickebein Revealed 63
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||
4. Luftwaffe M/F Beacons and RAF
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||
Countermeasures 72
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5. Formation of No 80 (Signals) Wing 77
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6. Target Prediction 78
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||
7. Elektra and Meaconing 84
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||
8. German Avoidance of Meaconing 85
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||
9. Ruffians and Bromides 86
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||
10. Colonel Turner's Department and Starfish
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||
96
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||
Summary 98
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||
Chapter 3 No 80 Wing, RCM Board and TRE
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||
1. No 80 (Signals) Wing, Organisation and Operations
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||
102
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||
2. The Radio Countermeasures Board 124
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||
3. TRE and Radio Countermeasures 126
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||
Summary 128
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||
Chapter 4 New Tactics and Countermeasures
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1. German Radar Revealed 132
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2. X-Verfahren (Ruffians) and a Change
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||
in Tactics 134
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||
3. HQ No 80 Wing and No 109 Squadron 141
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4. Benito Dissected 143
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||
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||
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||
iv
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||
CONTENTS Page
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||
Chapter 4 (Contd.)
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||
5. The Germans Move Eastwards: Operation Barbarossa
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146
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6. Luftflotte 3 and Expansion of RAF Jamming Capability
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147
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7. Mediterranean Excursion 149
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Summary 151
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VOLUME 2 THE OFFENSIVE PHASE 155
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Chapter 5 1942 – The Year of the Watershed
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1. The Channel Dash 156
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2. Freya, Moonshine; Mandrel and Wurzburg
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160
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3. The Baedeker Raids and Daylight Attacks
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166
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4. Norwich 8-9 May 1942 167
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5. Russian Adventure 174
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6. See-Saw, Bernhard and Bernhardine 177
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7. TRE at Swanage and Malvern; and the
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Sunday Soviets 178
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Summary 181
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Chapter 6 1943: A Year of Change in Systems and Procedures
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1. Knickebein Frequencies and Beam Settings
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184
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2. A New Use for Knickebein 187
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3. The Worrying Increase in Benito 188
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v
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CONTENTS Page
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Chapter 6 (Contd.)
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4. Night Attacks, Fighter-Bombers and Cigarette
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190
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5. A Response to the Fighter-Bomber Threat
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191
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6. M/F Beacons, Elektra, Sonne and Consol
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193
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7. The Anti-Jamming Unit 196
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Summary 197
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Chapter 7 1942 and 1943: The RCM Years
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1. Bomber Command's Dilemma 200
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2. Kammhuber and German Air Defence 204
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3. Airborne RCM – a Start 207
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4. Window, First Use and Consequences 214
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5. No 101 Squadron 218
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6. The Jamming of German Night fighter Communications
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219
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7. The Rise in German Fighter Strength 223
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8. The Hard Road to Berlin 224
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9. To Confound and to Destroy 226
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||
10. No 100 Group becomes Operational 229
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||
Summary 232
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Chapter 8 1944: Towards D-Day and Beyond
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1. Berlin 1944 237
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2. Big Week 241
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vi
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CONTENTS Page
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Chapter 8 (Contd.)
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3. RCM: Action and Reaction 242
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4. No 100 Group: On the Move 247
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5. Problems with the Return to Europe 251
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6. TRE and Planning for Overlord 253
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7. RCM and Overlord 261
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||
8. Air Superiority 270
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9. Dispersal: Post-Overlord 271
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Summary 272
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HQ No 100 Group, Order of Battle, December 1944
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275
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Chapter 9 Events After D-Day
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1. Allied Bomber Operations 276
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2. No 80 Wing: Flying Bombs and Rockets 278
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3. The Rapidly Changing Strategic Situation
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289
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4. No 100 Group: RAF and USAAF Operations
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291
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5. 1945: Operations, Air and Ground 301
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Summary 306
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HQ Bomber Command Order of Battle,
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March 1945 311
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Conclusion 313
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Bibliography 321
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vii
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MAPS AND DIAGRAMS Page
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1 The Lorenz Beam 56
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2 Copy of German Knickebein Document 58
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3 Diagram of Benito Beam System 60
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4 Hallicrafters S36 67
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5 Knickebein Beams Found 21 Jun 40 69
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6 Known Knickebein Locations 73
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7 Meacons and Enemy Beacons 75
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8 GAF Safety Service 87
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9 X-Gerät Clock 91
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10 Positions of Known Benito Stations 97
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10A No 80 Wing's Sites 107
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11 Meacon Display Board 109
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12 German 53 Cms Radar 135
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13 German Long Range Radar 162
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14 Mandrel 163
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15 Ground Cigar 192
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16 TRE RCM Division 257
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17 German Radar D-Day 258
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18 RCM Plan Overlord 267
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19 V1 Campaign against the UK 279
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20 V2 Rocket Sites 288
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21 Window Areas 297
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22 Bomber Command Loss Rate 312
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viii
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GLOSSARY
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A
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AAEE Aeroplane and Armament Experimental
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Establishment
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ABC Airborne Cigar. Countered German VHF
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communications on 38-42 Mcs and 30-33 or 48-52 Mcs
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ACM Aircraft Transmissions- Meaconing
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Abdullah The operation of homing on German Wurzburg
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radar stations
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ADGB Air Defence of Great Britain, (Fighter
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Command)
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ADI(Sc) Assistant Director of Intelligence (Science)
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AEAF Allied Expeditionary Air Force
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AI Air interception by means of radar carried in
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fighter aircraft
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ALB-15 American British Laboratory, Division 15
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(branch of Radiation Research Laboratories working at Malvern)
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ASE Admiralty Signals Establishment
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Aspirin Purpose built transmitter used as a jammer
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||
again Knickebein navigation and bombing beam
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ASV Air to Surface Vessel. Coastal Command search
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radar
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AVM Air Vice Marshal
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Azimuth Vertical arc from zenith to horizon; angular
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||
distance of this from meridian
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ix
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B
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Bagful Automatic search receiver recording RF of
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signals and time of interception on tape, with Interchangeable RF heads supplied coverage over 20-2000 Mcs, later 20-6000 Mcs
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Barbara and
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Barbarossa Development of German Egon control system
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Benito German navigation and bombing beam system
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in which range is determined by measuring the change of modulation phase of returning signal. Frequencies 42.3-44 Mcs
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Benjamin Ground jammer to counter German Y-Gerät
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bombing beam
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Bernhard German navigation aid using rotating beam,
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telemetering is used for communicating to
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aircraft
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Bernhardine Aircraft equipment associated with Bernhard
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||
Blond Automatic search receiver recording
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||
photographically the pulse shape, pulse length, prf, RF, split speed and time of interception of received signals (Frequency coverage as for Bagful)
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||
Bombe An electro-mechanical device which helped in
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||
the breaking of Enigma messages brought in from the Y-Stations
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Bromide Ground jammer to counter German X-Gerät
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beam
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BSDU Bomber Support Development Unit
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Boozer RAF Aircraft receiver giving visual warning
|
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when held in German radar beam
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C
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Carpet Airborne jammer to counter German Wurzburgs
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x
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Carpet II Selective noise modulated jammer for 180-450
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Mcs and 450-600 Mcs
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Carpet III-IV Various types of US barrage jammer
|
||
Chain Home CH. Original UK Early Warning radar operating
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||
between 15 and 27 Mcs
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||
Chimney German long range early warning radar
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||
Frequency in the Freya band
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CHL Chain Home Low Flying. UK search radar
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operating on 200 Mcs
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Cigar Airborne selective jammer used against German
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night fighter ground control in 38-42 Mcs
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Coalscuttle Airborne D/F system for detecting signals on
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frequencies above 1000 Mcs
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Corona RAF HF ground jammer, used against control
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of Luftwaffe night fighters
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CRDF Cathode Ray Direction Finder
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Crystal
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Control
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An accurate method of controlling transmitter frequencies by means of crystals
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CW Continuous Wave
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D
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D/F Direction Finding
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Dartboard RAF M/F jammer, used against broadcast
|
||
instructions to Luftwaffe night fighters
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DCAS Deputy Chief of Air Staff
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Deviator An emergency jammer deployed employed
|
||
against Knickebein, using a 50 watt standard RAF beam approach beacon
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Dina(h) US airborne high power jammer
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Direction Finding
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Method of establishing the bearing of wireless transmitter; two bearings will provide location
|
||
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xi
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Domino Counter to Benito. Signals from aircraft picked
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||
up and re-radiated on ground station frequency
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Drumstick RAF jammer used to disrupt Luftwaffe control
|
||
channels in the 3-6 Mcs band
|
||
Duppel German name for metal foil dropped to confuse
|
||
radar. Duppel is a town near the Danish border, where RAF Window was first found
|
||
E
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Egon German blind bombing system using two Freya
|
||
stations
|
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Elektra German navigation system, comprising a fan of
|
||
equi-signal beams separated by alternate dots and dashes operating on 481 kcs
|
||
ELINT Electronic Intelligence
|
||
Erstling German IFF system (FuG 25)
|
||
F
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Fidget The employment of certain Meacon transmitters
|
||
against German beacons broadcasting night fighter commentaries
|
||
Fighter Benito Benito German navigation ranging system for
|
||
use with Fighter-Bombers
|
||
Flensburg German equipment for Homing on to Monica.
|
||
Freya German Early Warning ground radar
|
||
equipment, originally working on 125 Mcs but later over 75-180 Mcs
|
||
Freya Halbe German equipment for Homing on to airborne
|
||
Freya jammer
|
||
G
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GAF German Air Force, the Luftwaffe
|
||
GCI Ground Control of Interception (Original RAF
|
||
frequency worked on 209 Mcs)
|
||
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||
|
||
xii
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||
Gee British navigation aid. Aircraft position is
|
||
obtained from the intersection of two sets of hyperbolae determined by three ground stations
|
||
Gee-H UK blind bombing device. Aircraft equipment
|
||
interrogated ground beacons and aircraft position obtained by intersection of two circles (the Gee indicator was used in the aircraft)
|
||
Geschwader German Air Force unit, nearest equivalent to an
|
||
RAF Group
|
||
Gruppe German Air Force unit, nearest equivalent to an RAF Wing. Kampfgruppe 100 was an independent bomber unit and was often referred to as KG 100
|
||
GL Gun-laying radar, British Army
|
||
Glimmer Code name for seaborne invasion diversion to
|
||
Boulogne
|
||
Grocer RAF Jamming equipment for Lichtenstein AI
|
||
radar
|
||
H
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||
H2S Airborne plan position equipment, which
|
||
permitted identification of built-up areas and
|
||
other landmarks (originally used 10 cms wavelength)
|
||
Headache Generic term for measures to jam Knickebein
|
||
navigation and bombing beam
|
||
Heidelburg German technique for obtaining early warning
|
||
using RAF CH transmissions
|
||
Heinrich German ground jammer to counter RAF Gee
|
||
navigation aid
|
||
H/F High Frequency
|
||
Himmelbett German system of close-controlled night
|
||
fighting
|
||
Hoarding German radar equipment for long range early
|
||
warning (frequency in the Freya band)
|
||
Hohentwiel German ASV working on about 500 Mcs
|
||
|
||
|
||
xiii
|
||
I
|
||
IFF Identification Friend or Foe
|
||
IFRU Intermediate Frequency Rejecter Unit – anti
|
||
jamming device
|
||
Intruder Fighter interference to enemy aircraft and
|
||
airfields, normally at night
|
||
J
|
||
JG Jagdgeschwader – German Fighter Wing
|
||
Jagdschloss German 150 Mcs continuously rotating ground
|
||
equipment, with PPI presentation, used for
|
||
fighter control
|
||
Jostle Airborne frequency modulated jammer for
|
||
German R/T
|
||
Jostle II Covers 24-54 Mcs
|
||
Jostle III Simulated noise jammer using pulse
|
||
modulation. Only one model produced
|
||
Jostle IV High power frequency modulated jammer,
|
||
covering 3-54 Mcs (used for jamming German night fighter R/T control and the V2, when a special variant was used)
|
||
K
|
||
Kampf
|
||
geschwader
|
||
KG. German Luftwaffe Bomber Unit equivalent to Royal Air Force Bomber Group
|
||
Kampfgruppe KGr. German Luftwaffe Bomber Unit equivalent
|
||
to Royal Air Force Wing
|
||
Kleine
|
||
Heidelberg
|
||
Passive German ground system for aircraft detection, using reflected radiation from British
|
||
ground radars
|
||
Knickebein German navigation and bombing beam. Used
|
||
frequencies between 30-33 Mcs
|
||
|
||
|
||
xiv
|
||
Korfu German ground radar receiver which provided
|
||
bearings to RAF aircraft using H2S
|
||
L
|
||
Lichtenstein German AI on 90 Mcs, later 36.2-120 Mcs and
|
||
490 Mcs
|
||
Loran US navigation system similar to Gee, but
|
||
operating on 2 Mcs
|
||
Lorenz beams Navigational aid employing a split beam to
|
||
indicate a given track
|
||
M
|
||
Magnetron Electron tube for amplifying or generating
|
||
microwaves. The Boot and Randall magnetron evolved out of Hertz's original resonant ring,
|
||
into a resonant cylinder and thence developed into a six-cavity system
|
||
Mandrel Noise modulated Barrage jammer used against
|
||
Freyas
|
||
Mandrel I Airborne jammer covering 118-148 Mcs, in
|
||
bands of 10 Mcs
|
||
Mandrel II Airborne jammer covering 60-200 Mcs, in
|
||
bands of 25 Mcs
|
||
Mandrel III Modified IFF circuit (spot frequency noise
|
||
jammer-receiving 15-200 Mcs band)
|
||
Mandrel V Improved spot frequency jammer covering 30
|
||
600 Mcs
|
||
MB Window, designed to cover 70-200 Mcs, Freya
|
||
and FuG 220
|
||
Mcs Megacycles per second
|
||
Meaconing Spoiling German D/F transmissions by picking
|
||
up and simultaneously re-radiating the original
|
||
signals from a different location
|
||
Mimic Operation to upset Luftwaffe radio beacons,
|
||
especially when being used to pass information
|
||
|
||
|
||
xv
|
||
Mimicry RAF device causing Meacon transmitters to self
|
||
oscillate against low-powered Luftwaffe beacons used by aircraft launching flying bombs against the United Kingdom
|
||
Monica RAF tail-warning airborne radar equipment
|
||
Moonshine Device which enabled one airborne aircraft to
|
||
appear as a large formation in an enemy radar
|
||
N
|
||
Naxos German equipment for homing on to RAF 10
|
||
cms equipment fitted to Bomber Command aircraft (FuG 350)
|
||
NPL National Physical Laboratory, Teddington
|
||
Nuremberg Modification to Wurzburg gun-laying radar to
|
||
minimise effects of Window
|
||
O
|
||
Oboe British blind bombing device using accurate
|
||
ground control
|
||
Oculist Luftwaffe W/T H/F broadcasts to night fighters
|
||
ORS Operational Research Section
|
||
Oslo Report One of the most remarkable intelligence reports
|
||
of the second world war, sent anonymously to the British Naval Attaché in Oslo in November 1939. It lifted the veil of ignorance which surrounded Germany's most important
|
||
scientific and technological advances
|
||
Ottakar R/T instructions provided to Luftwaffe night
|
||
fighters, initially on 31.2 Mcs
|
||
P
|
||
PDS TRE Post Design Service
|
||
|
||
|
||
xvi
|
||
Perfectos Device enabling British fighters to home on to
|
||
emissions of German IFF equipment
|
||
Ping Pong A wide band D/F equipment with accuracy of
|
||
about a quarter of a degree
|
||
Piperack Jamming equipment used against German AI
|
||
(Lichtenstein SN2)
|
||
PRF Peak Repetitive Frequency
|
||
PRO Public Record Office, Kew
|
||
PRU Photographic Reconnaissance Unit
|
||
R
|
||
R/T Radio telephony
|
||
Radar Radio Direction and Ranging
|
||
RAE Royal Aircraft Establishment, Farnborough
|
||
Rayon High-powered RAF transmitter used to
|
||
overcome Ottakar
|
||
RCM Radio Countermeasures
|
||
Rope Non-resonant form of Window, 400 ft rolls of
|
||
aluminium foil
|
||
RRDE Radio Research and Development.
|
||
Establishment at Malvern (formerly ADRDE) Army
|
||
RRL Radio Research Laboratories, Harvard, USA,
|
||
responsible for research and development on
|
||
radio countermeasures
|
||
Ruffians British name for X-Verfahren
|
||
S
|
||
SAT Scientific Adviser on Telecommunications. (Air
|
||
Ministry)
|
||
|
||
|
||
xvii
|
||
SCR.720 US AI equipment similar to RAF Mk X
|
||
Schwan Buoy Luftwaffe navigation beacons provided for
|
||
He 111s of 1KG66, employed in air-launching flying bombs over the North Sea
|
||
Seetakt German coast watching radar using 370 Mcs
|
||
and gun-laying radar
|
||
Serrate RAF airborne homing equipment used against
|
||
German AI, Lichtenstein and SN-2 radars
|
||
SHAEF Supreme Headquarters Allied Expeditionary
|
||
Force
|
||
Shiver Modified IFF set
|
||
SIU Signals Installation Unit closely working with
|
||
TRE
|
||
SN2 German AI equipment in 90 Mcs band, (later
|
||
36.2-120 Mcs)
|
||
Sonne German rotating beam navigation system
|
||
working on about 30-370 Kcs
|
||
Splasher Bomber Command radio beacon
|
||
Stopper Patrol Patrol off the entrance to port of Brest, France,
|
||
organised by Coastal Command
|
||
SWF No 100 Group Special Window Force
|
||
T
|
||
TAF Tactical Air Force.
|
||
Tame Boar Tame Boar GG. Emergency method of
|
||
employing Luftwaffe twin-engined fighters in the night defence role
|
||
Taxable Code name for invasion diversion to Cap
|
||
d'Antifer
|
||
Tinsel Airborne selective jammer of German night
|
||
fighter control R/T link on 3-6 Mcs
|
||
|
||
|
||
xviii
|
||
TRE Telecommunications Research Establishment
|
||
Tuba US High-powered ground jammer, used to
|
||
counter German Lichtenstein radar
|
||
V
|
||
V1 German flying bomb
|
||
V2 German long range rocket
|
||
VHF Very High Frequency, in the RAF 30-300 Mcs
|
||
W
|
||
Wassermann German early warning radar
|
||
WIDU Wireless Intelligence and Development Unit
|
||
Wild Boar Wild Boar. Emergency method of employing
|
||
Luftwaffe day fighters in the night defence role
|
||
Window British name for metal foil dropped to confuse
|
||
German radar organisation
|
||
Windjammer RAF name for Bernhard and Bernhardine
|
||
W/T Wireless Telegraphy
|
||
Wurzburg German ground radar equipment on about 53
|
||
Mcs, used to direct AA guns, searchlights and nightfighters
|
||
|
||
|
||
xix
|
||
X
|
||
X-Gerät Airborne apparatus associated with
|
||
X-Verfahren
|
||
Y
|
||
Yagi Type of aerial display developed by Dr. Yagi of
|
||
Japan, exemplified by TV aerials utilised for the reception of UHF transmissions
|
||
Y-Control German method of controlling nightfighters
|
||
using modified Y-Gerät equipment
|
||
Y-Gerät German beam used for navigation and blind
|
||
bombing
|
||
|
||
|
||
1
|
||
VOLUME ONE OF TWO
|
||
THE DEFENSIVE PHASE
|
||
|
||
|
||
2
|
||
INTRODUCTION.
|
||
When Britain declared war on Germany in 1939, the United
|
||
Kingdom little realised how much the Luftwaffe had come to
|
||
depend on Medium Frequency radio beacons for navigation
|
||
purposes, although it was aware of their existence and of their
|
||
routine employment by Lufthansa, the national state airline, for
|
||
such use in peacetime. What was not known, however, was the
|
||
development of the three radio navigation and bombing beams,
|
||
in the use of which German aircrews had already received, or
|
||
were about to receive, appropriate training. No other air force in
|
||
the world possessed such beams and thus, when the United
|
||
Kingdom began to be attacked in earnest in 1940 by the
|
||
Luftwaffe making use of these devices, it caused some
|
||
consternation in London. The Royal Air Force reacted to the
|
||
situation by seeking out methods with which to counteract
|
||
them, firstly by masking the beacons with equipment already
|
||
developed by the General Post Office, and then by attempting to
|
||
jam the beam signals. Without suitable equipment to hand,
|
||
however, makeshift measures had to be adopted against the
|
||
latter, until purpose-built transmitters became available at a
|
||
later date, from the Telecommunications Centre. During 1940
|
||
until early in 1942, the Royal Air Force fought a defensive radio
|
||
countermeasure war against Germany. This period, the
|
||
defensive phase of the early years of the war, is the focus of the
|
||
first part of this thesis.
|
||
So important had the Benito countermeasures become by
|
||
1941 that the RAF considered it necessary to issue Secret
|
||
|
||
|
||
3
|
||
Benito Operations Reports from 8 March 1941 to 17 April 1941.
|
||
These may be found in the Public Record Office at Kew, under
|
||
the reference Air 40 Piece 2242 and provided much of the
|
||
evidence on which this account is based.
|
||
From 1942 onwards, after the Channel Dash, when the
|
||
German Battle Cruisers Scharnhorst and Gneisenau and Cruiser
|
||
Prinz Eugen, successfully passed through the English Channel
|
||
on their way to Germany, the situation changed. For the first
|
||
time in the war, the Germans had jammed British radar and
|
||
thus there were no longer the inhibitions and restraints which
|
||
had formerly held back the Royal Air Force from such actions in
|
||
the past. Until that point the British had been extremely
|
||
sensitive over the Chain Home radar and thus restrained from
|
||
interfering with German radar in any way. Moreover, Bomber
|
||
Command was beginning to become a stronger and more
|
||
effective force in the same year, 1942, which the United States
|
||
Army Air Forces started to arrive in Europe, although some time
|
||
was to elapse before the latter would be able to attack Germany
|
||
effectively. But as bomber operations conducted by the Royal
|
||
Air Force started to increase in size and tempo, losses began to
|
||
mount due to effective German defences, which increasingly
|
||
involved the use of radar, and radar controlled searchlights and
|
||
guns and radar equipped night fighters. Consequently, in order
|
||
to try to reduce the numbers of casualties, Bomber Command
|
||
sought to employ the first of what was to be a range of airborne
|
||
countermeasures. Ground measures had already been utilised
|
||
for this purpose but invariably these were limited by range.
|
||
Thus, the next step was to provide airborne equipment for the
|
||
|
||
|
||
4
|
||
task. Unfortunately, some of the items were bulky and heavy
|
||
and thus a weight penalty was involved; more protection – less
|
||
range or bomb load. Eventually a compromise was reached,
|
||
whereby some countermeasure protection was carried by a
|
||
majority of aircraft, with the heavier equipment being allocated
|
||
to special support aircraft dedicated to the provision of radio
|
||
countermeasures. The period 1942-1945 thus marks the second
|
||
stage in the evolution of the radio war, or defensive-offensive
|
||
phase, in which ground and airborne equipment contributed to
|
||
the radio war, and is the subject of Volume Two of this thesis.
|
||
1. Aims of the Thesis
|
||
From intercepted Enigma messages, and the interrogation
|
||
of captured Luftwaffe aircrew, together with the aid of German
|
||
maps and documents, the Royal Air Force confirmed that in
|
||
1940 the German Luftwaffe were using wireless beacons and
|
||
beams for navigation and bombing purposes. The first aim of
|
||
this thesis is thus to explicate the search for, and the finding of,
|
||
these particular beacons and beams by the RAF. Once these
|
||
beacons and beams were found and identified, the Air Ministry
|
||
decided to take action in order to render them useless for the
|
||
purpose intended. To be successful, however, such measures
|
||
had to be controlled and applied in a logical manner. In order to
|
||
be able to achieve this a new formation was created, No 80
|
||
(Signals) Wing. The second aim of the thesis is thus to examine
|
||
the reasons why this Wing was formed, to investigate its
|
||
organisation and operations; and to confirm how it was
|
||
controlled.
|
||
|
||
|
||
5
|
||
In 1939 the Royal Air Force possessed little in the way of
|
||
radio jamming equipment; if countermeasures were to be
|
||
applied against the German devices in 1940, the Royal Air Force
|
||
would have to improvise. Later on, dedicated jammers would be
|
||
designed and made available. The third aim of the thesis is thus
|
||
to trace the early and subsequent ground-based measures
|
||
taken to nullify the German beacons and beams; and to
|
||
determine just how successful No 80 Wing was during the
|
||
defensive phase in the radio war.
|
||
Inevitably, the effects of ground-based jamming equipment
|
||
were limited by range. In order to overcome this disadvantage
|
||
thought was given to RAF aircraft carrying their own airborne
|
||
jammers. At first Bomber Command was loath to adopt such
|
||
measures, as indeed it had been, earlier, with radio navigation
|
||
and target-finding equipment, for fear of disclosing the aircraft's
|
||
position. It will be shown that rising losses, however, forced the
|
||
acceptance of defensive radio equipment. Moreover, in 1942, the
|
||
Germans jammed British radar to expedite the passage of their
|
||
capital ships through the English Channel. This action enabled
|
||
the RAF to adopt a more offensive stance in the radio war and to
|
||
jam German radar. In order to control the defensive and
|
||
offensive aspects of the radio war, the RAF decided late in 1943
|
||
to establish a new formation, No 100 Group, which would be
|
||
responsible for all such measures, including the activities of
|
||
No 80 Wing. The fourth aim of this thesis is to discover how and
|
||
why this Group was formed, to investigate its organisation and
|
||
to appraise the success and failure of its operations.
|
||
|
||
|
||
6
|
||
The Telecommunications Establishment (TRE) evolved out
|
||
of previous Air Ministry Research Stations, associated with the
|
||
development and provision of the radar chain, which provided
|
||
warning of hostile aircraft approaching the United Kingdom; the
|
||
Chain Home and Chain Home Low. TRE came to be responsible
|
||
for designing much of the jamming equipment required by the
|
||
RAF, and for producing many of the prototype transmitters. TRE
|
||
also submitted a number of authoritative papers on future radio
|
||
countermeasure policy to the RCM Board in London. The fifth
|
||
aim of this thesis is to examine the contribution made by this
|
||
research establishment to the radio war, and especially the
|
||
assistance provided to the Bomber Offensive and the radio
|
||
countermeasure plan implemented by the allies on D-Day,
|
||
6 June 1944.
|
||
2. Literature Consulted
|
||
A large number of unpublished primary sources were
|
||
consulted in the writing of this thesis. Of particular interest in
|
||
the Public Record Office was the lengthy, unpublished No 80
|
||
Wing Historical Report written by the staff officers concerned
|
||
with No 80 Wing's activities in January 1946, with a Foreword
|
||
by the then Officer Commanding No 80 Wing, Group Captain
|
||
E.B. Addison.1 In addition the unpublished monograph, The
|
||
Radio War, written by Dr Robert Cockburn on the subject as
|
||
seen from the Telecommunications Research Establishment's
|
||
1 No 80 Wing, Royal Air Force Historical Report 1940-1945, PRO Air 41/46.
|
||
|
||
|
||
7
|
||
point of view proved invaluable.2 Both sources have been
|
||
consulted and quoted at length. No official history of No 100
|
||
Group has been published and no draft of one could be found in
|
||
the PRO, and this thesis therefore fills an important gap. But an
|
||
operational history has been written and published by Martin
|
||
Bowman and Tom Cushing, which provides useful detail about
|
||
the activities of the Group’s Mosquito force.3 A history of TRE
|
||
has been written, but not published and a draft copy reposes in
|
||
the former TRE Library at Malvern, now the Defence Evaluation
|
||
Research Agency.
|
||
I found the registered papers belonging to the Department
|
||
of Chief of the Air Staff under Class Air 8 helpful. Both Bomber
|
||
Command's papers under Class Air 14 and Fighter Command's
|
||
papers under Air Class 16 I found invaluable in understanding
|
||
the radio war. The unregistered papers belonging to Class Air 20
|
||
was also essential reading. Classes Air 24, 25, 26, and 27
|
||
provided basic information about operations undertaken by the
|
||
RAF Commands, Groups, Wings and Squadrons. Class Air 40
|
||
contained intelligence information concerning secret Benito
|
||
activity and Class Air 41 contained Monographs and Narratives
|
||
written by the Air Historical Branch, which are also essential
|
||
reading if the radio war is to be understood. All of these may be
|
||
2 The Radio War, PRO Air 29/8953.
|
||
3 Martin W. Bowman and Tom Cushing, Confounding The Reich The Operational History of 100 Group (Bomber Support) RAF (Patrick Stephens Limited, Yeovil, Somerset, 1996).
|
||
|
||
|
||
8
|
||
found in the Public Record Office at Kew, under the references
|
||
furnished, and provide much of the evidence on which this
|
||
account is based. Vital information about the Government Code
|
||
and Communications Centre was obtained by reading Class HW
|
||
43, the Birch Histories. Classes Avia 7 and 26 provided much
|
||
detail about the work of TRE. Appendix "E", the RCM section of
|
||
the Harris War Despatch (PRO Air 20/1962) was especially
|
||
informative about the development of Radio Countermeasures
|
||
in Bomber Command.4 F.H. Hinsley's, British Intelligence in the
|
||
Second World War, 4 vols. was particularly revealing, Volume 1
|
||
providing much information about the Oslo Report, the GAF
|
||
raid on Coventry and the breaking of the Enigma Code.5
|
||
From secondary sources the Most Secret War by Dr R.V.
|
||
Jones is essential reading to an understanding of the whole
|
||
campaign, as is Instruments of Darkness by Alfred Price.6 RAF
|
||
Bomber operations are comprehensively covered in Martin
|
||
Middlebrook and Chris Everitt's excellent The Bomber Command
|
||
War Diaries and Martin Streetly's Confound and Destroy
|
||
provides much technical detail about No 100 Group, including
|
||
4 PRO Air 20/1962, Despatch on War Operations 23 February 1942 – 8 May 1945 by Air Chief Marshal Sir Arthur T. Harris, G.C.B., O.B.E., A.F.C. Air Officer Commanding-in
|
||
Chief, Bomber Command. But see also Despatch on War Operations 23 February 1942 to 8 May 145, by Sir Arthur T. Harris (Frank Cass, 1995)
|
||
5 F.H. Hinsley, British Intelligence in the Second World War, 4 vols (HMSO, 1979) 1.
|
||
6 R.V.Jones, Most Secret War (Hamish Hamilton, 1978); Alfred Price, Instruments of Darkness (Macdonald and Jane's 1977).
|
||
|
||
|
||
9
|
||
the American dimension and the bomber support campaign.7
|
||
Air Vice Marshal Tony Mason in his Air Power: A Centennial
|
||
Appraisal, provided useful information about the infant Royal
|
||
Air Force and Luftwaffe.8 The same author, Tim Mason, in his
|
||
British Flight Testing, confirmed that aircraft from the Aeroplane
|
||
and Armament Experimental Establishment were placed at the
|
||
disposal of Orford and Bawdsey research stations from 1936, for
|
||
the purposes of developing airborne radar.9 Air Vice Marshal
|
||
R.A. Mason in his Air Power: An Overview of Roles, endorses the
|
||
importance of Early Warning.10 As Tim Mason, in The Secret
|
||
Years, he brings out the secretive nature of the work of the
|
||
Wireless Investigation and Development Unit (later No 109
|
||
Squadron) whilst at Boscombe Down.11
|
||
The most comprehensive discussion of Hitler’s strategic
|
||
thinking is to be found amongst Germany and the Second World
|
||
War edited by the Research Institute for Military History,
|
||
Potsdam, Germany; volumes IV, The Attack on the Soviet Union
|
||
7 Martin Middlebrook and Chris Everitt, The Bomber Command War Diaries (Viking Books Ltd, 1985); Martin Streetly, Confound and Destroy (Jane's, 1985).
|
||
8 Air Vice Marshal Tony Mason, Air Power: A Centennial Appraisal (Brassey’s 1994).
|
||
9 Tim Mason, British Flight Testing (Putnam, 1993).
|
||
10 Air Vice Marshal R.A. Mason, Air Power: An Overview of Roles (Brassey’s Defence Publishers, 1987).
|
||
11 Tim Mason, The Secret Years (Hikoki Publications, Aldershot, 1998).
|
||
|
||
|
||
10
|
||
and VI, The Global War being especially useful.12 The Rise and
|
||
Fall of the Luftwaffe, by David Irving, provides a good account of
|
||
the fortunes of the German Air Force; while Gebhard Aders in
|
||
his History of the German Night fighter Force, drawing on such
|
||
archival sources as the Bundesarchiv/Militärarchiv, Freiburg,
|
||
describes in detail some of the varying successes and failures of
|
||
Bomber Command's attacks on German targets.13 The Luftwaffe
|
||
War Diaries by Cajus Bekker, translated and edited by Frank
|
||
Ziegler, is based on interrogations of numerous wartime
|
||
Luftwaffe leaders, and is useful in that it gives an overall view of
|
||
the activities of the German Air Force in the west, including the
|
||
period covering the Battle of Britain, the Night Defence of the
|
||
Reich and the Battle of Germany.14 Most helpful with details of
|
||
the Luftwaffe Pathfinder beam operations over the United
|
||
Kingdom was Ken Wakefield's Pfadfinder and E.R. Hooton in his
|
||
Eagle in Flames which furnished information about German
|
||
casualties and losses.15 Donald L. Caldwell's JG 26, based on
|
||
12 Rolf-Dieter Müller, ‘From Economic Alliance to a War of Colonial Exploitation’ in Research Institute for Military History, Potsdam, Germany (eds.) Germany and the Second World War, Vol. IV, The Attack on the Soviet Union, and Werner Rahn, ‘The War at Sea in the Atlantic and in the Arctic Ocean’ in Research Institute for Military History, Potsdam,
|
||
Germany (eds.) Germany and the Second World War: Vol. VI, The Global War (Clarendon Press, Oxford, 2001).
|
||
13 David Irving, The Rise and Fall of the Luftwaffe (Little, Brown and Company, BostonToronto, 1973); Gebbard Aders, History of the German Night fighter Force 1917-1945 (Crecy Books, Somerset, 1992).
|
||
14 Cajus Bekker, The Luftwaffe War Diaries (Macdonald, 1966).
|
||
15 Ken Wakefield, Pfadfinder (Crecy Books, Norwich, 1992); E.R. Hooton, Eagle in Flames (Brockhampton Press, 1999).
|
||
|
||
|
||
11
|
||
the recollections of fifty German veterans, provided an insight
|
||
into the operations of the leading Luftwaffe fighter wing when it
|
||
was based in France. His descriptions of the Channel Dash and
|
||
the GAF response to the allied landings on D-Day were
|
||
especially illuminating.16
|
||
Michael Howard's British Intelligence in the Second World
|
||
War: Finest Hour, was useful in that Chapter 6 provided details
|
||
about Operation Fortitude and discussed the lengths to which
|
||
the British were prepared to go to mislead Hitler about the
|
||
landing beaches on the Continent.17 Inside the Third Reich by
|
||
Albert Speer provided an insight into the way that Germany was
|
||
governed and how he, Speer, dealt with shortages of
|
||
armaments, aircraft and fuel, often at a critical time.18 Stephen
|
||
E. Ambrose's, The Wild Blue, provided an indication of the
|
||
damage done to the German aircraft factories during Operation
|
||
Big Week, as well as the grievous losses inflicted on the United
|
||
States Army Air Force by the German fighters.19 Reg Batt, in his
|
||
Radar Army, provided the information that Metropolitan Vickers
|
||
produced the Chain Home radar transmitters working on 6-15
|
||
metres and that A.C. Cossor of London produced the Chain
|
||
16 Donald Caldwell, JG 26 (Orion Books, New York, 1991).
|
||
17 Michael Howard, British Intelligence in the Second World War: Finest Hour, vol.5, (HMSO, 1990) 5.
|
||
18 Albert Speer, Inside the Third Reich (Weidenfeld & Nicolson, 1970).
|
||
19 Stephen, E. Ambrose, The Wild Blue (Simon and Schuster, New York, 2001).
|
||
|
||
|
||
12
|
||
Home Receivers.20 E.G. Bowen's, Radar days provided a useful
|
||
insight into the early days of Air Interception, together with a
|
||
fascinating over-view of the Tizard Mission to the USA and
|
||
Canada, with its gift of the Magnetron and jet engine.21 The
|
||
beginning of No 80 (Signals) Wing, and the early radio
|
||
countermeasures, are well described in Laurie Brettingham's
|
||
Royal Air Force Beam Benders, 80 (Signals) Wing, 1940-1945
|
||
using Air 26/280, 26/580, 27/853 and 41/46 as sources; and
|
||
John R. Bushby's Air Defence of Great Britain, details some of
|
||
the problems experienced in the United Kingdom when the
|
||
Authorities tried to arrive at a fully integrated system of air
|
||
defence.22 The importance of the convoys to Russia and how
|
||
crucial it was to keep Stalin in the war against Hitler is well
|
||
brought out in Martin Gilbert's Finest Hour.23 In Barbarossa,
|
||
Alan Clark relates how perilously close the German army came
|
||
to capturing Leningrad and possibly forcing Stalin to sue for
|
||
peace.24 The bombing of London, especially on the night 29
|
||
December 1940, is well documented in Basil Collier's The
|
||
Defence of the United Kingdom, the main Ruffian beams used on
|
||
20 Reg Batt, The Radar Army (Robert Hale, 1991).
|
||
21 E.G. Bowen, Radar Days (Adam Hilger, Bristol, 1987).
|
||
22 Laurie Brettingham, Beam Benders, Royal Air Force 80 (Signals) Wing 1940-1945
|
||
(Midland Publishing Limited, Leicester, 1997); John R. Bushby, Air Defence of Great Britain (Ian Allan, 1973).
|
||
23 Martin Gilbert, Winston S. Churchill Finest Hour 1939-1941, 6 vols. (Houghton Miflin Company, Boston, 1983),6.
|
||
24 Alan Clark, Barbarossa: The Russian-German Conflict 1941-1945 (Orion Books, 1966).
|
||
|
||
|
||
13
|
||
that occasion being of special interest.25 Aileen Clayton provides
|
||
an early and fascinating account of the RAF Y-Service, and also
|
||
describes the inter-change of information between Cheadle and
|
||
Kingsdown in her The Enemy is Listening.26 Alan W. Cooper well
|
||
describes the use Corona and Airborne Cigar are put to, in his
|
||
Bombers over Berlin.27 The history of No 109 Squadron is
|
||
portrayed in Michael Cumming's Beam Bombers, starting with
|
||
WIDU, progressing through 109 Squadron and ending with
|
||
Oboe operations in No 8 (PFF) Group.28 Len Deighton in his
|
||
Blitzkrieg discloses that the Scharnhorst and Gneisenau were
|
||
fitted quite early with the latest German radar (Seetakt) and
|
||
that in November 1939 this enabled them to steam through
|
||
Royal Naval patrol lines in daylight.29 Jeffrey Ethell and Alfred
|
||
Price in their Target Berlin confirm that the B-17 and B-24
|
||
pathfinders of 482nd Bomb Group were fitted with the British
|
||
H2S or its American derivative H2X, radar, enabling them to
|
||
bomb through cloud.30 Adolf Galland in his The First and Last
|
||
provides a first hand account of the Channel Dash, thus giving
|
||
an indication of the thoroughness of the German preparations
|
||
25 Basil Collier, The Defence of the United Kingdom (HMSO, 1957).
|
||
26 Aileen Clayton, The Enemy is Listening (Crecy Books Limited, 1993).
|
||
27 Alan W. Cooper, Bombers Over Berlin (Patrick Stephens, 1989).
|
||
28 Michael Cumming, Beam Bombers (Sutton Publishing, Stroud , 1998).
|
||
29 Len Deighton, Blitzkrieg (Grafton Books, 1990).
|
||
30 Jeffrey Ethel and Alfred Price, Target Berlin (Book Club Associates, 1981).
|
||
|
||
|
||
14
|
||
for the transit.31 Derek Howse in his Radar at Sea mentions the
|
||
remarkable fact that a large convoy of merchant ships sailed
|
||
through the Dover Straits at 5pm on D-Day in broad daylight,
|
||
the first convoy to do so for four years.32 David Irving provided
|
||
much useful material about the German V1 and V2 in his The
|
||
Mare's Nest.33 Derek E. Johnson in his East Anglia at War
|
||
1939-1945 gave helpful background information on the German
|
||
raid on Norwich, when No 80 Wing engaged the attacking
|
||
aircraft with radio countermeasures.34 Life and work at RAF
|
||
Defford, the airfield allocated to TRE, was well described by
|
||
Albert Shorrock in Pioneers of Radar by Colin Latham and Anne
|
||
Stobbs.35 The same authors in Radar: A War Time Miracle,
|
||
provided an explanation as to how Gee worked and gave an
|
||
example of how Gee-H was used on D-Day by No 218 Squadron
|
||
when Window was required to simulate an invasion fleet.36 The
|
||
secrets of the Bruneval Raid were disclosed in George Millar's
|
||
account of the British raid on a German radar station; parts of
|
||
the German radar were subsequently brought back to England
|
||
for investigation by RAE at Farnborough.37 In his Why The Allies
|
||
31 Adolf Galland, The First and Last (Methuen and Company, 1970).
|
||
32 Derk Howse, Radar at Sea (Macmillan, 1993).
|
||
33 David Irving, The Mare's Nest (William Kimber and Company Limited, 1964).
|
||
34 Derek E. Johnson, East Anglia at War (Jarrold, Norwich, 1994).
|
||
35 Colin Latham and Anne Stobbs, Pioneers of Radar (Sutton Publishing, Stroud, 1999).
|
||
36 Colin Latham and Anne Stobbs, Radar (Alan Sutton, Stroud, 1996).
|
||
37 George Millar, The Bruneval Raid (The Bodley Head, 1974).
|
||
|
||
|
||
15
|
||
Won Richard Overy pays tribute to Joseph Kammhuber's
|
||
organisation of German air defence, mentions the devastating
|
||
effect of Window and other countermeasure devices and also
|
||
describes the advent of the new long-range allied fighter, the
|
||
North American Mustang fitted with a Rolls-Royce engine.38
|
||
Simon W. Parry presents an interesting picture of Operation
|
||
Gisela and of German aircraft appearing over the United
|
||
Kingdom on the night 3-4 March 1945.39 Murray Peden, a
|
||
Canadian, provides a fascinating account of life as a pilot on No
|
||
214 Squadron, engaged on countermeasure duties.40 In the
|
||
Design and Development of Weapons, M.M. Postan, D. Hay and
|
||
J.D. Scott, explain the Doctrine of Quality and how it had to be
|
||
dispensed with during the period of expansion and rearmament
|
||
in 1934 and 1935; they then go on to explain the development
|
||
of radar in the United Kingdom.41 Germany's pioneering
|
||
achievements, 1904-1945, are set out in The Radar War, by
|
||
David Pritchard; the high technical standard of the equipment
|
||
and the low standard of German radar operators is neatly
|
||
brought out.42 Henry Probert in his Bomber Harris His Life and
|
||
Times, mentions the valid point, made by Albert Speer, that the
|
||
38 Richard Overy, Why the Allies Won (W.W. Norton and Company, New York, 1997).
|
||
39 Simon W. Parry, Intruders Over Britain (Air Research Publications, Surbiton, 1987).
|
||
40 Murray Peden, A Thousand Shall Fall (Imperial War Museum, 1981).
|
||
41 M.M. Postan, D. Hay, .D. Scott, Design and Development of Weapons (HMSO, 1964).
|
||
42 David Pritchard, The Radar War: Germany's Pioneering Achievements 1904-1945 (Patrick Stephens Ltd, Wellingborough, 1989).
|
||
|
||
|
||
16
|
||
real importance of the air war consisted in the fact that it
|
||
opened a second front long before the actual invasion of Europe
|
||
occurred in June 1944.43 The Night Blitz 1940-1941, by John
|
||
Ray, interestingly goes over the reasons why the Luftwaffe was
|
||
forced to turn to night bombing towards the end of 1940, at the
|
||
end of the Battle of Britain.44 Michael Renaut's Terror by Night
|
||
is written by a former 100 Group Squadron Commander and
|
||
provides much information about raising a radio
|
||
countermeasure unit; he also disclosed that he owed his life to
|
||
taking a scratch crew on operations, instead of his regular and
|
||
more experienced one.45 Frank Rowlinson explains in his
|
||
Contributions to Victory how Metropolitan Vickers Electrical
|
||
Company was able to introduce new design shops and thus help
|
||
to design and make radio countermeasure equipment for the
|
||
first time.46 Bob Ruegg and Arnold Hague in Convoys to Russia
|
||
1941-1945, were able to assess the strength and pinpoint the
|
||
location of the German Air Force units based in North Norway,
|
||
quite accurately, and estimate the dangers to Allied convoys
|
||
from such a force.47 Station X by Michael Smith tells the story of
|
||
the Codebreakers of Bletchley Park; it draws attention to the
|
||
43 Henry Probart, Bomber Harris: His Life and Times (Greenhill Books, 2001).
|
||
44 John Ray, The Night Blitz 1940-1941 (Arms and Armour Press, 1996).
|
||
45 Michael Renaut, Terror by Night (William Kimber and Company Limited, 1982).
|
||
46 Frank Rowlinson, Contributions to Victory (Metropolitan Vickers Electrical Company Limited, Manchester, 1947).
|
||
47 Bob Ruegg and Arnold Hague, Convoys to Russia 1941-1945 (World Ship Society, Kendal, 1992).
|
||
|
||
|
||
17
|
||
important connection between Station X and the RAF Y-Service
|
||
units, Kingsdown and Cheadle.48 In Enemy below!, Ted Sweet
|
||
gives an excellent account of the Meaconing activities at
|
||
Mundesley, in Norfolk, which was also the location of a Bomber
|
||
Command and US Army Air Force Splasher Station.49 B.L. Villa
|
||
in Unauthorised Action describes the poor planning of the
|
||
Dieppe raid, when the RAF lost 106 aircraft and mentions the
|
||
fact that Mountbatten borrowed a number of Gee navigation
|
||
devices from Sir Arthur Harris at Bomber Command for use by
|
||
the ships taking part in the raid.50 In GCHQ, The Secret Wireless
|
||
War 1900-86, Nigel West explores the world of the RAF SIGINT
|
||
Organisation, No 80 (Signals) Wing, RAF Countermeasure
|
||
transmitters and the Enigma Intercept Stations.51 In Attack
|
||
Warning Red Derek Wood provides a history of air defence of the
|
||
British Isles, bringing in the Observer Corps and the 1939 Air
|
||
exercise, when radar tracks were married with visual sightings
|
||
from the ground for the first time; he goes on to emphasise the
|
||
importance of an integrated air defence system.52 He also, in his
|
||
The Narrow Margin, provides a clear account of the Battle of
|
||
48 Michael Smith, Station X (MacMillan Publishers Ltd, 1998).
|
||
49 Ted Sweet, Enemy below! (Square One Publications, Worcester, 1991).
|
||
50 B.L. Villa, Unauthorised Action: Mountbatten and the Dieppe Raid (OUP, Ontario, 1989); Werner Rahn, ‘The War at Sea in the Atlantic and in the Arctic Ocean’ in Research Institute for Military History, Potsdam, Germany (eds.) Germany and the Second World War: Vol. VI, The Global War, p. 441
|
||
51 Nigel West, GCHQ: The Secret Wireless War (Weidenfeld and Nicolson, 1984).
|
||
52 Derek Wood, Attack Warning Red (Macdonald and Jane's, 1976).
|
||
|
||
|
||
18
|
||
Britain and includes the latest and most authoritative list of
|
||
Luftwaffe losses published so far. He goes on to relate the
|
||
development of radar for the German Navy 1934-35 and for the
|
||
other German services shortly thereafter. He goes on to mention
|
||
the German beams and the formation of No 80 (Signals) Wing.53
|
||
The BBC Video, The Secret War, discusses the battle of the
|
||
beams and introduces such personalities as Dr R.V. Jones, T.L.
|
||
Eckersley of the Marconi Company, who was the country's
|
||
leading expert in radio propagation, and E.A.B. Addison. In the
|
||
video R.V. Jones makes the point that twenty-one factories were
|
||
destroyed at Coventry and if the Luftwaffe bombing beams had
|
||
not been overcome, the Rolls-Royce aerofactory at Derby and
|
||
others were likely to have gone the same way with consequent
|
||
disastrous results for Britain.54
|
||
Much has been written and published about radio
|
||
countermeasures, but in order to understand the radio war
|
||
fully, it is necessary to be aware of the contribution made by
|
||
each of the key components. Thus it is essential to learn of
|
||
No 80 (Signals) Wing and how and why it was created; how the
|
||
Y-Service was able to provide this formation with the necessary
|
||
intelligence, essential to its operations. How the success of
|
||
No 80 Wing’s operations led to the formation of No 100 Group,
|
||
in order to control all radio countermeasures, ground as well as
|
||
53 Derek Wood, The Narrow Margin (Tri-Service Press Limited, 1990).
|
||
54 BBC Video, The Secret War (BBC Enterprises Limited, 1994), 2 vols., 1 BBC V5339.
|
||
|
||
|
||
19
|
||
air, and above all, how the Telecommunications Research
|
||
Establishment came to provide the new and original hardware
|
||
with which to fight the campaign, together with the necessary
|
||
policies on how best to use it. This thesis therefore goes beyond
|
||
what is already known.
|
||
3. Thesis Lay-out
|
||
In order to set the scene for the thesis, the first chapter
|
||
recalls how practical wireless first came to Britain in 1896, in
|
||
the hands of Marconi, and how his apparatus came to be
|
||
accepted by the Royal Navy. It is also important to stress that
|
||
wireless was an open method of communicating and hence it
|
||
was considered necessary to use codes and cyphers: moreover,
|
||
wireless was also subject to intentional interference or jamming,
|
||
it was noted as early as 1914.55 The chapter goes on to relate
|
||
how great advances were made during World War One in the
|
||
techniques of decryption and especially Direction Finding and,
|
||
how at the end of hostilities, the Government Code and Cypher
|
||
School was created. A brief description then follows of the
|
||
struggle to maintain the Royal Air Force as a separate service
|
||
between the years 1919-1933; as it ended, Hitler arrived on the
|
||
scene in Germany: shortly the early models of Enigma, the
|
||
commercial models of which were already in use, began to be
|
||
issued to the German armed forces. The beginnings of radar in
|
||
the United Kingdom are then explored and the importance of an
|
||
55 Nigel West, GCHQ, p.18.
|
||
|
||
|
||
20
|
||
integrated air defence system emphasised. The chapter goes on
|
||
to stress how much the Royal Air Force came to rely on the
|
||
Telecommunications Research Establishment.
|
||
Chapter Two opens by describing the training of Luftwaffe
|
||
aircrews in the use of X-Gerät, before the commencement of
|
||
hostilities in 1939 and of Knickebein and X-Gerät after that
|
||
date. Enigma disclosed the existence of Knickebein to the
|
||
British in May and June 1940 and how later in June the beams
|
||
were found laid over the United Kingdom. In July it was
|
||
confirmed that the Germans were using Medium Frequency
|
||
radio beacons for navigation purposes while over the United
|
||
Kingdom. RAF Meacons, transmitters designed to re-radiate the
|
||
enemy beacon signals, were then introduced to combat the
|
||
German beacons with great success. No 80 (Signals) Wing was
|
||
formed to control all the measures being taken against the
|
||
beams and beacons. It then became apparent that British
|
||
countermeasures would have to be monitored for their
|
||
effectiveness. This task was largely given to the aircraft of the
|
||
Wireless Investigation and Development Unit. Further Luftwaffe
|
||
navigation aids were uncovered such as Elektra. The Germans
|
||
then took steps to avoid RAF Meaconing; and the Chapter ends
|
||
with the uncovering of the third Luftwaffe beam, Benito,
|
||
together with an account of the activities of Colonel Turner's
|
||
Starfish department of the Air Ministry.
|
||
Chapter Three is concerned with the organisation and
|
||
operations of No 80 (Signals) Wing in detail. It points out the
|
||
|
||
|
||
21
|
||
advantages of establishing a good liaison with Fighter
|
||
Command; and introduces the work of the Radio
|
||
Countermeasures Board, which approved national policy and
|
||
was the final arbiter whenever disputes arose between users of
|
||
countermeasures. The Chapter ends by investigating some of
|
||
the early measures taken by No 80 Wing.
|
||
Chapter Four discloses how Seetakt, the German coastal
|
||
radar, came to be identified and how this event led to the
|
||
uncovering of the early warning radar Freya. Further
|
||
information about Wurzburg, the accurate height-finding radar,
|
||
was then obtained by radio investigative flights that took place
|
||
over France. More and more, the Germans were now seeking to
|
||
avoid British countermeasures and their tactics are explained,
|
||
along with the RAF attempts to bomb the German transmitters
|
||
sited on the Cherbourg peninsula. The third German beam,
|
||
Y-Verfahren, meanwhile remained under investigation by the
|
||
Research Establishments, and it was during February 1941,
|
||
that the first RAF countermeasure, Domino, was produced for
|
||
Y-Verfahren. The X-Verfahren or Ruffians were used less in
|
||
June 1941, although the system continued to be employed until
|
||
withdrawn in the following July. Further information about the
|
||
work undertaken by No 109 Squadron (formerly WIDU) is then
|
||
provided. The detailed working of Benito now became available,
|
||
resulting in the evolution of the second Benito jammer,
|
||
Benjamin. The remainder of the Chapter provides an account of
|
||
the rundown of the Luftwaffe in the west; the expansion of RAF
|
||
|
||
|
||
22
|
||
jamming capability; and a late flurry of beacon and Meacon
|
||
activity.
|
||
Chapter Five deals with the escape of the German Battle
|
||
Cruisers Scharnhorst and Gneisenau through the English
|
||
Channel, when British radar was jammed for the first time. It
|
||
goes on to list the first RAF airborne devices, Moonshine and
|
||
Mandrel, and how they were employed. The Chapter continues
|
||
with the German Baedeker Raids on the United Kingdom and
|
||
the raid on Norwich together with No 80 Wing's reactions. No 80
|
||
Wing's short excursion to northern Russia is then revealed; and
|
||
the Chapter ends with reference to the newly introduced
|
||
controls for German night fighters and the work being
|
||
undertaken by TRE at Swanage and Malvern.
|
||
Chapter Six covers the low level of Luftwaffe activity over
|
||
the United Kingdom during the latter half of 1942; this became
|
||
more active in 1943, when German fight-bomber attacks
|
||
started. The Germans then found a new use for Knickebein, and
|
||
this was accompanied by a worrying increase in the number of
|
||
Benito stations, which forced No 80 Wing to redistribute its
|
||
transmitters. Night attacks then resumed against the United
|
||
Kingdom; No 80 Wing responded successfully by using the
|
||
jammer, Cigarette.
|
||
Bomber Command's failure to find its targets and bomb
|
||
them accurately is brought out in Chapter Seven; it goes on to
|
||
show how these shortcomings were overcome. A new
|
||
commander was able to introduce techniques with the radio
|
||
|
||
|
||
23
|
||
aids developed by TRE and so help to secure the future of the
|
||
Command. Germany's improved air defences under the
|
||
guidance of General Kammhuber then come under scrutiny;
|
||
these improvements led to rising losses, forcing Bomber
|
||
Command to adopt radio countermeasures for protection
|
||
purposes. One of the measures used was Window; it was so
|
||
successful that it caused a revision to the whole German night
|
||
fighter system. It was important for Bomber Command to
|
||
possess up-to-date and detailed knowledge of the latest German
|
||
defences and here No 101 Squadron, with an electronic
|
||
monitoring role, was of assistance. No 80 Wing, too, continued
|
||
to play a part in the struggle. A series of British attacks against
|
||
Berlin started in November 1943 and, as the loss-rate continued
|
||
to rise, it was decided to form a new formation to bring together
|
||
the application of manifold countermeasures under one
|
||
authority. This was No 100 (Bomber Support) Group.
|
||
Chapter Eight continues with RAF attacks on Berlin and
|
||
goes on to explain how, prior to the invasion of France, it was
|
||
necessary for Bomber Command to attempt to hit small targets
|
||
accurately by night. This it did successfully, somewhat to its
|
||
surprise. As the RAF Berlin campaign drew to a close, the
|
||
USAAF started to assault the German aircraft industry. The
|
||
somewhat laborious task of creating an entirely new Group, in
|
||
the middle of a war, is then covered together with the work of a
|
||
small but significant unit of the USAAF. The Chapter ends with
|
||
an investigation into TRE's contribution to the RCM Plan for
|
||
Operation Overlord, the Plan being made by possible by the
|
||
|
||
|
||
24
|
||
massive air superiority now available to the RAF and United
|
||
States Army Air Forces.
|
||
After the successful landings in France, in June 1944, the
|
||
strategic air force concentrated on supporting the allied land
|
||
force, but with capacity to spare the German oil industry was
|
||
also attacked. The German flying bomb and rocket attacks then
|
||
started, when No 100 Group's ground and air jammers were
|
||
able to make a contribution. The remainder of the Chapter is
|
||
taken up with a description of the continuing Bomber
|
||
Command attacks on German targets and the level of
|
||
sophistication of the feints, ruses and diversions necessary in
|
||
order to keep main force aircraft losses to a minimal level.
|
||
The Royal Air Force countermeasure organisation was
|
||
formed at a perilous time for the United Kingdom in 1940. It
|
||
was facing invasion daily with an army at home that had
|
||
recently been ejected from the Continent, and largely bereft of
|
||
its heavy weapons and equipment. Only the RAF was available
|
||
to stand up to the Luftwaffe and so guarantee the safety of the
|
||
British way of life. It was at this juncture that the Luftwaffe
|
||
beacons and beams were found, dealt with and eventually
|
||
mastered. This was not an easy undertaking. Firstly an
|
||
organisation had to be improvised, equipment found and
|
||
communications established, tasks not easy in the middle of a
|
||
war, and which were to take time. The Research Establishments
|
||
had to be approached and inducted into the requirements of No
|
||
80 Wing. Fortunately TRE was available, willing to assist and
|
||
|
||
|
||
25
|
||
well-versed in RAF ways and procedures. However, all of this
|
||
would not have been enough without intelligence, some of it
|
||
high level, only obtainable from Ultra; the remainder fortunately
|
||
could be acquired from RAF and national sources. By February
|
||
1942, as the defensive phase gave way to a more offensive spirit,
|
||
German radar was jammed. And so began a period when first
|
||
one side, then the other gained ascendancy in the radio war. It
|
||
soon became obvious that as Bomber Command started to
|
||
employ more and more electronic aids and countermeasures,
|
||
another RAF controlling formation would be required. Hence
|
||
towards the end of 1943, No 100 (Bomber Support) Group was
|
||
formed and charged with the responsibility of providing all radio
|
||
countermeasures to the RAF. Fortunately, when it was time to
|
||
return to Europe in June 1944, the allies had established air
|
||
superiority, and although radio countermeasures on the day
|
||
were used to blind some German radars, they were largely
|
||
employed on protecting allied aircraft and implementing
|
||
successfully a number of deception plans. From this time
|
||
onwards to the end of the war, countermeasures were employed
|
||
almost exclusively on the protection of RAF and United States
|
||
Army Air Force bomber aircraft, and notably in covering the
|
||
D-Day landings.
|
||
|
||
|
||
26
|
||
CHAPTER ONE: WIRELESS, SIGNALS INTELLIGENCE, GOVERNMENT CODE AND CYPHER SCHOOL AND THE FORMATION OF, AND FIGHT FOR, THE ROYAL AIR FORCE
|
||
1. Marconi and the Beginnings of Signals Intelligence
|
||
During the Nineteenth Century, the Admiralty had long wished
|
||
to be able to communicate with HM ships at sea quickly and
|
||
accurately, especially with those out of sight of land. Great interest
|
||
was thus taken in Marconi and his new development, wireless,
|
||
when he arrived in Britain in 1896.1 During the next few years he
|
||
attempted to improve the performance of his equipment, while
|
||
conducting a series of major demonstrations in order to convince
|
||
the interested and indifferent alike of the advantages of using
|
||
wireless as a means of conveying and receiving information.
|
||
Representatives of the Admiralty were present at a trial held in
|
||
1899 when for the first time signals in morse code were passed by
|
||
wireless from England to France over a distance of 32 miles. The
|
||
Royal Navy was impressed, as were members of the public. The
|
||
military authorities however, remained lukewarm, much preferring
|
||
to continue to use telephone lines and telegraph. Shortly,
|
||
transmitters and receivers were installed in two of HM ships, which
|
||
were able to communicate successfully with one another while at
|
||
sea and some 85 miles apart. A year later, and after a further
|
||
increase in range, the Admiralty placed a contract with Marconi for
|
||
exclusive rights to his equipment.2 Notwithstanding the legal
|
||
niceties of this arrangement, the Army then proceeded to construct
|
||
1 Frances Donaldson, The Marconi Scandal (Rupert Hart-Davis, 1962) p.11; Nigel West, GCHQ: The Secret Wireless War, pp.6-7.
|
||
2 Nigel West, GCHQ: The Secret Wireless War, pp.10-12.
|
||
|
||
|
||
27
|
||
its own Marconi field wireless station. The subsequent trial,
|
||
however, held in South Africa during the Boer War, was
|
||
unsuccessful and the equipment was handed over to the Royal
|
||
Navy, who gratefully and promptly made full use of it. In due
|
||
course, and to facilitate communication with the fleet, the
|
||
Admiralty placed an order with the Marconi Company for a number
|
||
of shore stations to be erected in England and Ireland and, at the
|
||
same time, it decided to equip some twenty-six warships with
|
||
wireless apparatus. While work proceeded with these contracts,
|
||
wireless signals were sent across the Atlantic from the Marconi
|
||
transmitter situated at Poldhu, in Cornwall and successfully
|
||
received in Newfoundland. Once the fleet was fitted with wireless
|
||
the Admiralty would be able to keep in touch with its ships at sea
|
||
for the first time.3
|
||
In the United Kingdom it was already understood that wireless
|
||
telegraphy was an open, and thus insecure, means of
|
||
communication. Indeed, Professor Oliver Lodge had confirmed this
|
||
point to the General Post Office (GPO) in 1903.4 The army too, had
|
||
realised that anyone with an appropriate receiver could listen to
|
||
such transmissions without much difficulty. Moreover, censorship
|
||
experience gained during the Boer War had taught the authorities
|
||
the advantages of controlling such emissions. In spite of the efforts
|
||
of a small number of wireless enthusiasts in the army, however,
|
||
the army in general continued to rely on cable and telegraph for
|
||
most of its communications.5 The Committee of Imperial Defence
|
||
(CID), formed after the Boer War to provide the government of the
|
||
3 Ibid.
|
||
4 Ibid.
|
||
5 Ibid., p.12.
|
||
|
||
|
||
28
|
||
day with the best available high level defence advice, took another
|
||
view. Lord Haldane, the Secretary of State for War from 1905 to
|
||
1912, shortly authorised the creation of a War Book containing
|
||
essential measures to be taken in the event of a major crisis or
|
||
war.
|
||
From this relatively simple but far-sighted and vital measure
|
||
sprang the idea of a formal Secret Service (MI5) and the
|
||
drawing-up, in advance, of a list of names of persons thought to be
|
||
suitably qualified for employment in intelligence and cypher duties.
|
||
The War Office attitude at the time discouraged the learning of
|
||
foreign languages. Eventually the commercial world was
|
||
approached for individuals who could speak foreign languages and
|
||
who might be employed on intelligence work. Several influential
|
||
firms, and others, responded and these included shipping lines, a
|
||
major bank and a telegraph company. In 1906 the army started to
|
||
think again about employing wireless as a major means of
|
||
communication. It was therefore somewhat fortunate that relevant
|
||
trials and experiments had been allowed to continue at centres
|
||
such as Aldershot and Chatham. At long last a new signal service
|
||
was formed and a Director of Telegraphs and Signalling approved.
|
||
It took the Army until 1913 before these changes were fully
|
||
implemented and Telegraph gave way to Signals, even so, the
|
||
cavalry was the only arm in the British Expeditionary Force (BEF)
|
||
equipped with wireless, until 1917. They made full use of it.
|
||
In 1909 Marconi was awarded the Nobel Prize for physics, but
|
||
this did not help him very much in the commercial sense. Progress
|
||
was slow and in the following year, exasperated by the delays and
|
||
political in-fighting occurring in London, his company proposed a
|
||
plan to link the Empire by wireless. His proposals using eighteen
|
||
high power stations were given further impetus by the knowledge
|
||
that Germany was embarking on a similar scheme to connect its
|
||
|
||
|
||
29
|
||
own colonies with Berlin.6 France too, had similar aspirations and
|
||
wished to establish communications between Paris and North
|
||
Africa. The CID was strongly in favour of an Empire wireless chain
|
||
and recommended such a link to the government. Because of
|
||
strong opposition to the Marconi Company, stemming from an
|
||
alleged stock exchange scandal, some ministers had bought shares
|
||
in the American Company, and it took until August 1913 before
|
||
the House of Commons approved final contracts for six wireless
|
||
stations, which would form a chain connecting Britain with
|
||
Australia. Marconi did not get his eighteen stations, but six were
|
||
better than none at all, or so he thought at the time. In the event,
|
||
the Marconi Company did not complete any of the six and when
|
||
the contract was cancelled, somewhat abruptly, it was awarded
|
||
£600,000 by way of compensation. Such was the antipathy,
|
||
however, displayed towards the Marconi Company because of the
|
||
share scandal, although not towards Marconi himself, that the
|
||
Empire had to wait until the autumn of 1927 for the installation of
|
||
a complete system of wireless communication.7
|
||
Naval intelligence then produced, at a subsequent
|
||
sub-committee meeting of the Committee of Imperial Defence, a
|
||
world-wide survey of British and foreign wireless stations in
|
||
considerable detail. This gave the CID the advantage of deciding, in
|
||
advance, which communications should be disrupted, intercepted
|
||
or left alone in time of war. At a second meeting of this important
|
||
sub-committee on 29 June 1914 the subject of intentional
|
||
interference or jamming was raised. Mr Wilkins the Treasury
|
||
6 Viscount Samuel, Memoirs (The Cressey Press, 1945), pp.74-77.
|
||
7 Frances Donaldson, The Marconi Scandal, p.243.
|
||
|
||
|
||
30
|
||
representative, ever mindful of the public purse, said:
|
||
it was for consideration how far it was worth expending
|
||
money on apparatus [i.e. wireless] that might be
|
||
rendered useless in wartime.8
|
||
In accordance with secret clauses contained in the War Book,
|
||
censorship of communications was imposed in August 1914. But
|
||
postal censorship had been overlooked and thus an appropriate
|
||
organisation had to be hurriedly introduced to discharge this
|
||
particular task.
|
||
Once trench warfare commenced in France in 1914, the
|
||
British Army found its beloved telegraph wires were soon destroyed
|
||
by German artillery fire. To stand any chance at all of passing
|
||
information to and from forward units, cables had to be buried
|
||
several feet underground and pigeons utilised as message carriers
|
||
on a massive scale.9 The few wireless sets that were available had
|
||
been allocated to the cavalry and these were used to good effect.
|
||
German transmissions were overheard with the aid of this
|
||
equipment and the intercepts passed to GHQ where they were
|
||
successfully analysed. Soon the British Army became proficient at
|
||
traffic analysis and, with the help of its newly developed technique
|
||
of Direction-Finding (DF), was able to identify many German
|
||
military units and formations and plot their positions and
|
||
subsequent movements. Needless to say the War Office was
|
||
delighted with this turn of events.10 Moreover, with the help of
|
||
8 Nigel West, GCHQ, pp.18-19.
|
||
9 Ibid., pp.28-29.
|
||
10 Ibid., p.30.
|
||
|
||
|
||
31
|
||
specialised wireless equipment German telephone conversations
|
||
were overheard. For similar reasons British conversations had to
|
||
be banned within 3,000 yards of the front line. This then was the
|
||
start of modern Signals Intelligence, or SIGINT, which not only
|
||
included interception of wireless signals but de-cryption of the
|
||
messages as well as a detailed analysis of the traffic itself. The
|
||
potential usefulness of SIGINT was not lost on the War Office,
|
||
which was then in the process of being reorganised by Kitchener. A
|
||
Director of Military Intelligence was re-introduced, and the BEF,
|
||
given its first Director, started to develop its own intelligence
|
||
organisation. Throughout the winter of 1916 the BEF took
|
||
advantage of the Germans' increased use of landlines by enlarging
|
||
and improving its SIGINT capability. A special unit analysed the
|
||
information obtained and recommended appropriate action. In
|
||
London, the War Office established units to study such intercepts,
|
||
to develop traffic analysis and to improve methods of decryption.11
|
||
Meanwhile, the Admiralty had made much progress with the
|
||
interception and de-cryption of German naval wireless signals.
|
||
They had created their own large and effective intelligence
|
||
organisation, which, with the aid of an efficient Direction Finding
|
||
service, was able at times to keep track of units of the German
|
||
surface fleet and U-boats and Zeppelins. Jamming of German naval
|
||
signals was also undertaken and some success achieved. Thus
|
||
allied ships and convoys could be routed around German U-boat or
|
||
surface ship locations, if these were known in advance. Then, if it
|
||
was both advantageous and possible to do so, an attempt could be
|
||
made to intercept and attack the German units. In this way eight
|
||
Zeppelins were destroyed in 1916 alone. Above all, perhaps, it was
|
||
11 Ibid., p.32.
|
||
|
||
|
||
32
|
||
the Admiralty's superb team of code-breakers in Room 40, which
|
||
enabled the allies to read much of Germany's wireless traffic.12
|
||
After the end of the war in 1918 the United Kingdom started to
|
||
disarm as quickly as possible. Careful plans had been drawn up to
|
||
prevent too many men being released too quickly thus causing
|
||
unemployment but, due to public clamour, these were abandoned
|
||
in favour of the principle of 'first in — first out'. Consequently,
|
||
within a year over four million men were demobilised. As the
|
||
demobilisation machinery gathered momentum, it became evident
|
||
that vital intelligence services and techniques could be lost in the
|
||
process. Consequently the War Cabinet, in 1919, decided to create
|
||
a Secret Service Committee to review existing arrangements. From
|
||
this came the important and far-reaching decision to establish a
|
||
Government Code and Cypher School (GC and CS — now GCHQ),
|
||
which came into existence on 1 November, 1919.13 The following
|
||
year a clause was inserted into the Official Secrets Act requiring all
|
||
cable companies operating from British territory to submit copies
|
||
of traffic, transmitted and received, to the government within ten
|
||
days.14 The tasks being passed to the Government Code and
|
||
Cipher School (GC & CS) were to study the ciphers used by other
|
||
governments and to advise on the security of national codes and
|
||
cyphers. From experience already gained, especially during World
|
||
War One, wireless traffic had proved to be a valuable source of
|
||
intelligence. Hence the origin of Signals Intelligence (SIGINT),
|
||
12 John Terraine, ‘The Substance of War’, in Hugh Cecil, and Peter H. Liddle, (eds.) Facing Armageddon, The First World War Experienced, (Leo Cooper, 1996), pp.6-7; Nigel West, GCHQ, pp.36-38.
|
||
13 F.H. Hinsley, British Intelligence in the Second World War, vol.1, p.20.
|
||
14 Nigel West, GCHQ, p.75.
|
||
|
||
|
||
33
|
||
which involves the study of communications systems, and
|
||
interception of such communications. Personnel for the new
|
||
organisation were recruited from staff formerly employed in Room
|
||
40 of the Admiralty and MI 1(b) of the War Office, the cost being
|
||
borne by the Foreign Office.
|
||
The War Office then decided to reorganise its SIGINT
|
||
arrangements and in August of 1920 formed the Royal Corps of
|
||
Signals. A military wireless communications chain was maintained,
|
||
with the overseas garrisons and intercepts acquired by elements of
|
||
the chain, or the garrisons themselves, being passed to GC and CS
|
||
for decryption and appropriate action. As a result of these
|
||
arrangements the Cabinet was furnished, inter alia, with
|
||
information disclosing Soviet involvement in the internal and
|
||
external affairs of the United Kingdom, including a subsidy paid to
|
||
the Daily Herald newspaper.15 In 1923 it was decided that the
|
||
head of the Secret Intelligence Service should become, in addition,
|
||
Director GC and CS. Although foreign cypher traffic was declining
|
||
at the time, the three armed services agreed with these changes,
|
||
albeit with some reservations. Nevertheless, a Naval Section was
|
||
added to GC & CS from 1924, an Army section from 1930 and, very
|
||
belatedly, the Air Section from 1936.16 Since its inception the
|
||
Army team had become involved with German air matters. This
|
||
parasitical arrangement suited the RAF as it saved manpower, but
|
||
with the surge in Luftwaffe traffic from 1935 onwards, the Army
|
||
15 Ibid., pp.76-77.
|
||
16 In the army and RAF, intelligence was then subordinated to operations, moreover RAF intelligence was not highly regarded in the 1920s and 1930s. Donald Cameron Watt, ‘British Intelligence and the Coming of the Second World War in Europe’, in Ernest R. May, (ed.), Knowing One's Enemies (Princeton, Princeton University Press, New Jersey, 1984), p.242, pp.256-260.
|
||
|
||
|
||
34
|
||
increasingly found it difficult to continue with the task, hence the
|
||
RAF presence from 1936.17 At the time all the service personnel
|
||
involved were employed on cryptanalytical work only. To provide
|
||
the necessary guidance and to establish priorities, GC & CS
|
||
established a Cryptography and Interception Committee in 1924;
|
||
but, since this met infrequently, a standing sub-committee had to
|
||
be formed four years later to co-ordinate all wireless interception.
|
||
This was the important Y Sub-Committee. The three services were
|
||
represented on both bodies and they retained control of the
|
||
personnel involved and their own interception stations. But they
|
||
could not have the latter everywhere: thus by the 1930s a system
|
||
had developed whereby the War Office concentrated, mainly but
|
||
not exclusively, on the Middle East, the Royal Navy on the Far
|
||
East, and the Royal Air Force, with its limited facilities, on the
|
||
United Kingdom. Even so, the War Office maintained a SIGINT
|
||
station at Devizes in the UK and the Home Office a station at 113,
|
||
Grove Park, Camberwell that concentrated on Soviet diplomatic
|
||
traffic.
|
||
2. The Royal Air Force 1919-1933
|
||
The year 1919 for the RAF was to mark the beginning, not the
|
||
end, of a struggle to maintain its existence as a separate and equal
|
||
armed service of the crown. The very man who helped bring the
|
||
RAF into existence, Lloyd George, raised the first hurdle to the
|
||
continuation of a third service. Re-elected in the 'Coupon Election'
|
||
of December 1918, the Prime Minister of the new government made
|
||
Churchill Secretary of State for War and Air, fully intending on the
|
||
grounds of economy, to dispense with the Air Ministry as a
|
||
17 Public Record Office (PRO) Government Code Headquarters HW 43/1, p.3.
|
||
|
||
|
||
35
|
||
separate department, as soon as he could conveniently do so. Lloyd
|
||
George then busied himself with the Peace Conference held in Paris
|
||
from January 1919. Later he was to change his mind about
|
||
disbanding the RAF, without any prejudice, however, towards
|
||
reducing government expenditure on defence. Thus for the moment
|
||
the RAF could expect to continue to exist as a separate service but
|
||
would still be subject to any necessary financial retrenchment.
|
||
Meanwhile, the first Chief of Air Staff, Hugh Trenchard, had
|
||
resigned his position over differences with Lord Rothermere, the
|
||
then Air Minister, but in the following year he had been persuaded
|
||
by Churchill to resume his former post.18 He returned to the Air
|
||
Ministry on 15 February 1919.19 He was going to need all his
|
||
faculties and powers of reasoning, if the infant RAF was to grow
|
||
and be accepted as an equal with the Royal Navy and Army.20
|
||
Trenchard was determined that the air force should continue
|
||
as a separate entity, no matter what its size, be administered as
|
||
economically as possible and, above all, be capable of rapid
|
||
expansion should the need ever arise. By 1920 the post-war boom
|
||
had turned into a slump and a year later into a depression. By this
|
||
time Lloyd George had introduced his 'Ten Years Rule', which
|
||
assumed that no major conflict would arise for the next ten years.
|
||
Conveniently, the rule was renewed annually and certainly had its
|
||
desired effect of tightening the Treasury grip on service
|
||
expenditure. Unfortunately for Trenchard this debilitating rule was
|
||
18 C. Webster and N. Frankland, The Strategic Air Offensive Against Germany, 4 vols. (HMSO, 1961), vol.1, pp.38-39.
|
||
19 Andrew Boyle, Trenchard (Collins, 1962), p.332.
|
||
20 Ibid., pp.343-344.
|
||
|
||
|
||
36
|
||
not rescinded until 1932.21 By then the years of minimal
|
||
expenditure on defence had adversely affected not only the state of
|
||
efficiency of all three services but also the nation's aircraft
|
||
industry. During a time of great financial stringency, therefore,
|
||
Trenchard not only had to convince the government of the day of
|
||
the necessity of maintaining a separate air force in peacetime, but
|
||
he also had to persuade the chiefs of the other services as well,
|
||
perhaps a harder task.
|
||
3. Hitler and Enigma
|
||
Germany had experimented with cryptographic devices in the
|
||
closing months of World War One, but little was heard of them
|
||
until 1926, when the German Navy began to be supplied with a
|
||
sophisticated military version of a machine called Enigma, the
|
||
Scherbius or civilian model of which was already in commercial
|
||
use.22 By the end of 1935 some 20,000 of these machines were
|
||
available for use by the three German services.23 Germany
|
||
continued to improve Enigma to such an extent that by the
|
||
outbreak of World War Two it considered the cypher safe from
|
||
decryption. Meanwhile, the Polish Cypher Bureau had become
|
||
interested in deciphering Enigma traffic as early as 1928, and had
|
||
acquired one of the commercial Scherbius machines.24
|
||
Subsequently, in 1931, the French acquired Enigma settings and
|
||
passed them for the first time to the Poles. A strong team of
|
||
mathematicians was employed on this complex task and resulted
|
||
21 Denis Richards, Royal Air Force 1939-1945, 3 vols. (HMSO, 1953), vol.1, p.18.
|
||
22 F.H. Hinsley, British Intelligence in the Second World War, vol.1, p.487.
|
||
23 Ronald Lewin, Ultra Goes to War (Hutchinson and Company, 1978), p.45.
|
||
24 Ibid.
|
||
|
||
|
||
37
|
||
in the Polish cypher teams starting to read Enigma messages. The
|
||
German Navy, however, decided to alter its Enigma in 1937 and
|
||
consequently the Polish teams were unable to continue to read the
|
||
navy traffic. The following year the indicating system used by the
|
||
German Army was altered, bringing Polish success with this
|
||
particular system to a halt.
|
||
In 1933 Adolf Hitler became Chancellor of Germany and
|
||
started to put in train a succession of events that ultimately would
|
||
lead to the opening of hostilities between that country and the
|
||
United Kingdom some six years later. As knowledge of the
|
||
expanding German armed forces, especially the German Air Force,
|
||
became known in London, disarmament gave way to re-armament
|
||
and it was at the beginning of this period that the Director of Air
|
||
Intelligence decided, in 1934, to increase the service's interception
|
||
capability and created a small wireless monitoring station at RAF
|
||
Waddington in Lincolnshire.25 Such was the influx of general traffic
|
||
intercepted, however, that a new department, AI 1(e), had to be
|
||
established in the Air Ministry in order to analyse it all.
|
||
In contravention of the terms contained in the Treaty of
|
||
Versailles, Hitler signed a decree in February 1935, formally
|
||
creating the Luftwaffe on the first of the following month.26 But
|
||
the German Air Force had already been formed and its existence
|
||
had been known for some time; indeed it had been considered to be
|
||
a potential menace to the United Kingdom the year before.27 Much
|
||
25 Nigel West, GCHQ, p.110.
|
||
26 David Irving, The Rise and Fall of the Luftwaffe, pp.44-46; Air Vice Marshal Tony Mason, Air Power: A Centennial Appraisal, p.47.
|
||
27 C. Webster and N. Frankland, The Strategic Air Offensive Against Germany, 1939-1945, vol.1, p.67.
|
||
|
||
|
||
38
|
||
low-grade wireless traffic started to be intercepted regularly from
|
||
1934 onwards and this helped in estimating the size and
|
||
dispositions of the German Air Force. Indeed, by this means some
|
||
sixty ground stations were identified along with 578 aircraft by
|
||
September of that year. High-grade information, however,
|
||
enciphered with the aid of the electro-magnetic Enigma machine,
|
||
remained unreadable, although some success was obtained at GC
|
||
and CS in 1937 when several of the older and less secure machines
|
||
were used during the Spanish civil war. Flowerdown and Fort
|
||
Bridgewoods, near Chatham, were the two intercept stations
|
||
involved.28 Even so, this limited success only seemed to confirm
|
||
that traffic encrypted with the aid of the newer versions of Enigma,
|
||
at the time only deployed inside the Reich, would be impenetrable,
|
||
provided the operators used the relevant procedures correctly.
|
||
To help find appropriate Enigma keys, the Polish bureau
|
||
started to develop a system of perforated sheets and introduced the
|
||
world's first electro-mechanical cryptographic bombe.29 To
|
||
complicate matters further, in 1939, the German Army's Cypher
|
||
office increased the number of Enigma plugboard sockets, thus
|
||
rendering the bombe unreliable as the main cryptographic tool.
|
||
Because of this situation, and following the British Cabinet's
|
||
decision to support Poland, the Polish cryptographers, in July
|
||
1939, decided to inform France and Great Britain of their success
|
||
with Enigma from 1933 to 1938, and that they could be successful
|
||
again if the new and enlarged perforated sheets could be produced
|
||
in quantity. Indeed, they actually built a number of Enigma
|
||
28 Nigel West, GCHQ, p.110.
|
||
29 F.H. Hinsley, British Intelligence in the Second World War, vol.1, p.492.
|
||
|
||
|
||
39
|
||
machines and presented one each to France and Great Britain.30 A
|
||
few days after Poland was invaded in September 1939, their
|
||
cryptographic team hurriedly moved to France where they waited
|
||
for the perforated sheets to arrive from the United Kingdom to
|
||
enable them to continue their work.
|
||
Meanwhile, the United Kingdom Government had decided that
|
||
Enigma, suitably modified by an additional British attachment,
|
||
known as Type-X, should be made available to the Royal Air Force
|
||
and the Army. If used correctly, this device made it impossible for
|
||
any intercepts to be deciphered. On hearing this news, the head of
|
||
GC & CS became so pessimistic that, in the event of a foreign
|
||
power adopting such a combination, he considered his
|
||
establishment would be rendered redundant. Nevertheless, the
|
||
Y Committee arranged for further intercept stations to be
|
||
constructed in order to be able to concentrate on German and
|
||
Italian diplomatic traffic. The Austrian Anschluss in March, 1938,
|
||
had a profound effect on the United Kingdom and France, not least
|
||
on their respective intelligence communities. Moreover, the
|
||
subsequent and disturbing events concerning the Sudetenland and
|
||
Czechoslovakia persuaded the Treasury to agree to an expansion of
|
||
GC & CS and thus, in 1939, very late in the day, a German section
|
||
was established and many additional linguists acquired from the
|
||
commercial world and universities. In addition, it was decided that
|
||
Bletchley Park, in Buckinghamshire, should be used as an
|
||
alternative to the London Broadway HQ.31 The then chief of the
|
||
Secret Intelligence Service, Admiral Sinclair, had purchased the
|
||
estate at Bletchley in 1938 with some forethought. Intercept
|
||
30 Michael Smith, Station X: The Codebreakers of Bletchley Park, p.19.
|
||
31 Gordon Welchman, The Hut Six Story (Allen Lane, 1982), p.9.
|
||
|
||
|
||
40
|
||
facilities, however, still remained somewhat slender as GC & CS
|
||
went on to a war footing on 1 August 1939, the Air Ministry still
|
||
depending on the small unit located at RAF Waddington.
|
||
Fortunately, and in accordance with Y Committee policy, the Air
|
||
Ministry had decided to prepare another site at Cheadle in
|
||
Staffordshire, and this, signals unit No 61, was destined to be
|
||
enlarged and become considerably more important as the war
|
||
progressed. Indeed, it was to become the Royal Air Force's pre
|
||
eminent Y Wireless Telegraphy intercept station.32
|
||
4. Radar and the Integrated Air Defence of the UK
|
||
Meanwhile, the international situation was deteriorating
|
||
rapidly. Moreover, there had been little significant improvement in
|
||
the United Kingdom's air defence arrangements since the end of
|
||
World War 1, although it is true that various plans had been drawn
|
||
up, such as the Steel-Bartholomew plan of 1923, which attempted
|
||
to integrate observer posts, anti-aircraft guns and fighter defence,
|
||
but relied on early warning being provided by sound locators, the
|
||
52 Squadron Scheme, and, with the re-emergence of the German
|
||
Air Force as a potential threat to London and other cities of the
|
||
United Kingdom, the Reorientation Scheme of 1935.33 Most of
|
||
these, however, were all variations of ideas extant in 1918. Some
|
||
improvements had been made with sound detection, and a few
|
||
detectors had actually been constructed out of concrete by the
|
||
Royal Engineers, for use by the Royal Air Force.34 Subsequent
|
||
trials with aircraft, however, had proved to be disappointing and
|
||
32 F.H. Hinsley, British Intelligence in the Second World War, vol.1, pp.14-15.
|
||
33 John R Bushby, Air Defence of Great Britain, pp.79, 81-82, 84-85.
|
||
34 Richard N. Scarth, Mirrors by the Sea (Hythe Civic Society, Hythe, Kent, 1995) plates 1-22.
|
||
|
||
|
||
41
|
||
tended to confirm current thinking that the bomber would always
|
||
get through to its target.35
|
||
Interest in air defence then began to gather pace, especially
|
||
within the Air Ministry itself. Action by the Air Ministry Director of
|
||
Scientific Research, H.E. Wimperis, resulted in Lord Londonderry,
|
||
the Secretary of State for Air from 9 November 1931, establishing a
|
||
special committee under the chairmanship of Sir Henry Tizard,
|
||
with Professors A.V. Hill and P.M.S. Blackett to help him. It met for
|
||
the first time in January 1935 and was known as the Committee
|
||
for the Scientific Survey of Air Defence. Meanwhile H.E. Wimperis,
|
||
who had designed the first course-setting bombsight for the Royal
|
||
Naval Air Service in 1917, enlisted the help of Watson Watt, the
|
||
Director of the National Physical Laboratory.36 The latter had been
|
||
a meteorologist and subsequently had devoted much time to
|
||
studying the detection and location of thunderstorms with the aid
|
||
of radio waves and equipment that included a cathode ray tube.
|
||
Watson Watt was therefore well aware of the reflective properties of
|
||
radio waves.37 With the help of his assistant, A.F. Wilkins, he
|
||
advised Wimperis that it might be possible to detect aircraft by
|
||
exploiting this phenomenon. From then on events moved swiftly.
|
||
Further pertinent details were quickly furnished to Watson Watt
|
||
who then submitted a remarkable document, which later came to
|
||
be known as the 'Radar Charter'.38 Members of the Committee
|
||
studied the charter on 21 February and were so impressed with the
|
||
author's grasp of the air defence problems, and the methods
|
||
35 Ibid., p.36.
|
||
36 Neville Jones, The Origins of Strategic Bombing (William Kimber, 1973), pp.20-21.
|
||
37 E.G. Bowen, Radar Days, p.7; John Bushby, Air Defence of Great Britain, pp.100-101.
|
||
38 Ibid., p.102.
|
||
|
||
|
||
42
|
||
proposed to overcome the manifold difficulties facing them, that
|
||
within a week the Secretary, A.P. Rowe, had not only informed the
|
||
then Air Member for Research and Development of this timely and
|
||
promising development, but gained his wholehearted support.39
|
||
The very same day the well-known and much written-about trial
|
||
was held near Daventry when a Heyford bomber reflected the short
|
||
waves emanating from a nearby BBC transmitter, the outcome
|
||
being clearly seen on a cathode-ray tube.40
|
||
Dowding was impressed with the results and set to work to
|
||
obtain public money for further research. With the backing of the
|
||
new Secretary of State for Air, Viscount Swinton, and the Air
|
||
Council, a sum of £10,000 was found surprisingly quickly, together
|
||
with a suitable research site, Orfordness, just 15 miles down the
|
||
coast from Aldeburgh in Suffolk. Soon, thanks largely to the
|
||
dedication of a small team of enthusiasts; the range of detection of
|
||
known aircraft was pushed out to a distance of forty miles, then
|
||
eighty and hundred miles.41 Various tests and trials followed,
|
||
leading to the problems connected with Direction-Finding being
|
||
largely overcome.42 By October 1935 the Research Station had
|
||
outgrown its facilities and moved to Bawdsey Manor, some fifteen
|
||
miles to the south, which offered better conditions for radar trials
|
||
and more secure surroundings. Such was the progress made that
|
||
shortly thereafter the Treasury agreed, as an interim measure, to
|
||
the necessary expenditure for a chain of five stations to be
|
||
39 Air Chief Marshal Sir Hugh Dowding, quoted in Denis Richard's, Royal Air Force 1939-1945, 3 vols., vol.1, p.404.
|
||
40 John Bushby, Air Defence of Great Britain, pp.104-105.
|
||
41 E.G. Bowen, Radar Days, p.16.
|
||
42 John Bushby, Air Defence of Great Britain, p.107.
|
||
|
||
|
||
43
|
||
established to cover the approaches to London.43 Consequently
|
||
contracts were placed, under great secrecy, with Metropolitan
|
||
Vickers for transmitters in the 6-15 metre range and A.C. Cossor
|
||
for the Receivers; the latter company being the largest
|
||
manufacturer of Cathode Ray tubes in the United Kingdom.44
|
||
Radar masts had now reached a height of over 200 feet and were to
|
||
go higher, but, in spite of possible construction problems, it was
|
||
still hoped that the new stations would be ready in time to
|
||
participate in the air defence exercise scheduled for that summer.
|
||
Due to delays in construction at the other sites, Bawdsey was the
|
||
only station fully to take part. The subsequent results were
|
||
disappointing, many aircraft not being detected or detected too
|
||
late. The Chief of Air Staff, Sir Edward Ellington, was sufficiently
|
||
far-seeing to decide that the project should, nonetheless, be
|
||
continued.45 It was to develop into the Chain Home (CH) and Chain
|
||
Home Low (CHL) early warning systems used so successfully
|
||
against German aircraft approaching the United Kingdom during
|
||
World War Two, especially in daylight during the Battle of Britain.46
|
||
As developments continued to take place at Bawdsey, thought
|
||
was given in the Air Ministry to deciding who was going to operate
|
||
the air-warning network and what method of recruitment and
|
||
training of the necessary personnel would be required. Operations
|
||
rooms were going to have to be manned in order to assess and
|
||
collate the acquired data and to operate the vital communications
|
||
system, which would enable fighter aircraft to be scrambled and
|
||
43 Denis Richards, Royal Air Force 1939-1945, vol.1, pp.23-25.
|
||
44 Reg Batt, The Radar Army (Robert Hale, 1991), p.16.
|
||
45 John Busby, Air Defence of Great Britain, pp.109-110.
|
||
46 M.M. Postan, D. Hay, J.D. Scott, Design and Development of Weapons, p.378.
|
||
|
||
|
||
44
|
||
subsequently guided to their respective targets. In 1936, Squadron
|
||
Leader R.G. Hart was the officer selected for this new task; in order
|
||
to be able to work closely with the scientists developing the radar
|
||
network, he chose Bawdsey as his training centre.47 While the
|
||
pertinent reporting procedures were being worked out, it became
|
||
apparent that it would be possible for two or more adjacent CH
|
||
stations inadvertently to report the same aircraft. In order to avoid
|
||
any confusion that might arise from such a situation, Hart
|
||
introduced the Filter Room where raw radar data could be
|
||
crosschecked and refined before being passed to Operations Rooms
|
||
for display and information purposes.48
|
||
With many of the major and most pressing problems of the
|
||
Chain Home (CH) system overcome, Tizard and Watson-Watt could
|
||
think more about future developments and address the difficulties
|
||
of installing radar equipment into the cockpits of night fighter and
|
||
other aircraft. Construction of ground stations had been difficult
|
||
enough even without having to take into consideration such factors
|
||
as power requirements, weight and size. In the air these
|
||
considerations of power, weight and size became paramount.
|
||
Fortunately, Tizard and Watson-Watt had already given some
|
||
thought to these problems and their views and ideas were passed
|
||
to the staff at Orford and Bawdsey Research Stations. What was
|
||
required was equipment small enough to be installed in a night
|
||
fighter, which would enable a pilot on his own to close from a range
|
||
of ten to fifteen miles down to about five miles.49 Dr E.G. Bowen
|
||
was eager and willing to head an airborne radar group, which, in
|
||
47 John Bushby, Air Defence of Great Britain, pp.115-116.
|
||
48 Ibid.
|
||
49 E.G. Bowen, Radar Days, pp.30-31.
|
||
|
||
|
||
45
|
||
the beginning, consisted of a staff of one. By the end of 1936 he
|
||
had successfully constructed an airborne radar receiver small
|
||
enough to be installed in a Handley Page Heyford aircraft from
|
||
nearby RAF Martlesham Heath, then the home of the Aeroplane
|
||
and Armament Experimental Establishment (AAEE).50 The work
|
||
was of critical importance and was eventually to lead to the first
|
||
use of Air Interception (AI) and Air to Surface Vessel (ASV) radar
|
||
equipment in aircraft. By the beginning of 1937, Dr E.G. Bowen
|
||
had achieved outstanding results with his airborne radar
|
||
transmitter and receiver, operating on a frequency of one-and-a
|
||
half metres, installed in an Avro Anson.51 At this stage Great
|
||
Britain was ahead of Germany in airborne radar, there simply
|
||
being no requirement at that time for Air Interception equipment in
|
||
a country with the most powerful air force in the world. The FuG
|
||
Lichtenstein BC AI radar, which was subsequently developed and
|
||
manufactured by Telefunken, entered service in 1942-43 and was
|
||
developed from the 1939 Lichtenstein B high-altitude radio
|
||
altimeter.52
|
||
Meanwhile, for the Royal Air Force, the whole concept of radar
|
||
was new, and secret, and only those who needed to know were
|
||
informed about its role in air defence and other uses. In 1936
|
||
Tizard suggested trials should be held to determine exactly how,
|
||
and how accurately, a controller would be able to direct an
|
||
intercepting fighter on to an enemy aircraft, using information
|
||
obtained from radar sources. As a result the Royal Air Force
|
||
subsequently held what came to be known as the 'Biggin Hill'
|
||
50 Tim Mason, British Flight Testing (Putnam, 1993), pp.42-43.
|
||
51 E.G. Bowen, Radar Days, pp.41-42.
|
||
52 Martin Streetly, Confound and Destroy, p.179.
|
||
|
||
|
||
46
|
||
experiment.53 It was from these extremely important trials, and
|
||
those that followed, that Fighter Command learned it could
|
||
dispense with wasteful, and generally inefficient, standing patrols,
|
||
requiring fighter aircraft to be constantly airborne, and instead to
|
||
rely on timely and accurate information from the Chain Home
|
||
network, augmented by information furnished by the Observer
|
||
Corps. For the first time radar and ground tracks were compared.54
|
||
In due course Controllers became proficient in the new technique
|
||
of directing fighter aircraft with the aid of recently introduced radio
|
||
telephony, and using filtered information displayed on a map
|
||
situated in front of them in the operation centre. With practice, it
|
||
became possible to estimate the course in degrees, which a fighter
|
||
pilot should steer in order to effect a successful interception. From
|
||
1937 to the outbreak of hostilities with Germany, the RAF
|
||
concentrated on improving air and ground radar, and in training
|
||
the personnel who were to operate the radar system.
|
||
In February 1940, J. Randall and H. Boot devised the world's
|
||
first magnetron at Birmingham University. This device produced a
|
||
pulsed output of over one-Kilowatt at ten centimetres, unheard of
|
||
figures at the time. Not only did the magnetron make it possible for
|
||
the British to introduce centimetric radar, but it also led to a
|
||
radical improvement in radar generally.55 Quite early in 1940 Sir
|
||
Henry Tizard suggested that British secrets should be disclosed to
|
||
the USA in return for technical and production assistance. Both
|
||
53 Ibid., pp.117-119.
|
||
54 Ibid.
|
||
55 Reg Batt, The Radar Army, p.96; Air Vice Marshal R.A. Mason, Air Power: An Overview of Roles, pp.18-19.
|
||
|
||
|
||
47
|
||
governments agreed by late July to the visit by Tizard.56
|
||
Consequently, towards the end of August 1940, Sir Henry led a
|
||
Mission to Canada and the USA, in the course of which British
|
||
secrets such as the jet engine, radar in its many forms and the
|
||
unique resonant magnetron were disclosed.57 Indeed, the hope was
|
||
to invoke the technical and productive resources of the whole North
|
||
American continent. In this way, over a million magnetrons of every
|
||
type came to be made by US companies in the United Kingdom, or
|
||
in the USA, which were subsequently incorporated in hundreds of
|
||
thousands of allied radar sets, including those used by the Royal
|
||
Air Force.
|
||
The Observer Corps was not a new organisation, having come
|
||
into existence as a result of the knowledge and experience gained
|
||
during the German air raids on London during World War One. It
|
||
was to make a big contribution in World War Two. A Major
|
||
General, E.B. Ashmore, had been made responsible for organising
|
||
the air and ground defences and for extending the system beyond
|
||
the Metropolitan area. The observer network comprised a number
|
||
of posts linked by telephone to a control room. These were manned
|
||
at first by troops, and later police, who used a common reporting
|
||
code based on a gridded map. At the end of the war in 1918,
|
||
Ashmore proposed the formation of a peacetime air-defence
|
||
network composed of aircraft, guns, searchlights and observers
|
||
enrolled as special constables, all placed under one commander.
|
||
The Committee of Imperial Defence subsequently approved the
|
||
56 E.G. Bowen, Radar Days, pp.150-151.
|
||
57 Colin Latham and Anne Stobbs, Pioneers of Radar, pp.4-5.
|
||
|
||
|
||
48
|
||
scheme and the corps was officially approved in October 1925.58
|
||
Subsequent air exercises proved the indispensable value of the
|
||
Observer Corps and brought closer links with the Royal Air Force,
|
||
resulting in the appointment of Air Commodore E.A.D. Masterman
|
||
RAF (Ret'd) as the first Commandant in 1929.59 As radar was
|
||
introduced and integrated into the air-defence arrangements from
|
||
1936 onwards, visual reporting of enemy and friendly aircraft,
|
||
especially when flown at low level or overland, was given as much
|
||
prominence as ever. King George VI was to award the prefix 'Royal'
|
||
to the Observer Corps in 1941.60
|
||
5. Telecommunications Research Establishment (TRE) and the Start of Radio Countermeasures
|
||
It is noteworthy that up until the first half of 1936, personnel
|
||
working at Bawdsey had been employed by the National Physical
|
||
Laboratory; but on 1st August of that year, responsibility for the
|
||
Bawdsey Research Station (BRS) passed to the Air Ministry, thus
|
||
enabling Squadron Leader R.G. Hart to start his radar training
|
||
courses at that location. Watson Watt moved up to the Air
|
||
Ministry in 1938 to become Director of Communications
|
||
Development (DCD), being replaced at Bawdsey by the former
|
||
Secretary to the Tizard Committee, A.P. Rowe. In accordance with a
|
||
plan devised by Watson Watt, BRS moved to Dundee University in
|
||
Scotland in September, 1939, the airborne side going to Perth. A.P.
|
||
Rowe was a capable, scientific civil servant; but moving there was
|
||
an unwise decision, the accommodation being unsuitable, as it was
|
||
58 Directorate of Public Relations (RAF) Chronology: 50th Anniversary of the Royal Air Force (MOD, 1968), p.10.
|
||
59 Derek Wood, Attack Warning Red, p.29.
|
||
60 Directorate of Public Relations (RAF) Chronology, p.17.
|
||
|
||
|
||
49
|
||
at Perth. Taffy Bowen placed the blame for this state of affairs
|
||
firmly on the shoulders of Watson Watt and A.P. Rowe.61 In spite of
|
||
the location, the organisation was still expanding and one of the
|
||
several recruits at the time to the airborne division was a young
|
||
Bernard Lovell. The title Bawdsey Research Station was obviously
|
||
unsuitable for Dundee, and was changed accordingly to Air
|
||
Ministry Research Establishment (AMRE). After two months the
|
||
airborne side, complete with aircraft and forty odd personnel of D
|
||
Flight AA&EE, moved to RAF St Athan. On the face of it, St Athan
|
||
should have been ideal, being a large station and well away from
|
||
the East and South coasts: but it was a busy technical training
|
||
unit with limited resources. Since St Athan was an unsuitable
|
||
place to conduct research, most of the work here involved fitting AI
|
||
into Blenheims for Fighter Command, and ASV mainly into
|
||
Hudsons of Coastal Command. However, in May 1940, while
|
||
momentous events were taking place on the Continent, both
|
||
components of AMRE were moved to yet another location, Swanage
|
||
in Dorset, to a specially prepared, but ill-equipped site on the
|
||
coast, vulnerable to German air attack and assault from the sea.62
|
||
However, AMRE now became the Telecommunications
|
||
Research Centre (TRE), with D Flight, originally from Martlesham,
|
||
being absorbed into TRE's airborne division, being based at
|
||
Christchurch aerodrome. It was here at Worth Matravers, in
|
||
August 1940, that a Radio Countermeasure Group (RCM) headed
|
||
by Dr Robert Cockburn was created. The RCM Division was
|
||
developed from this. At the time, most of TRE's research was
|
||
directed towards protecting the United Kingdom, and its
|
||
61 E.G. Bowen, Radar Days, pp.84-87.
|
||
62 Ibid., pp.137-138; PRO Avia 7/601; Pro Avia 7/602; Pro Avia 7/603.
|
||
|
||
|
||
50
|
||
manufacturing industry, from the attentions of the Luftwaffe. Much
|
||
effort, therefore, had to be given to improvements and
|
||
strengthening of the RAF's night fighter defences, especially in the
|
||
further development of the first air interception radar (AI). In 1941,
|
||
TRE proposed that some form of radio countermeasure might be
|
||
used to support offensive air operations. The idea was a novel one;
|
||
Bomber Command, the sole means of carrying the war to the
|
||
German homeland at the time, rejected it out of hand, believing
|
||
that their existing methods of navigation were adequate and that
|
||
Radio silence had to be maintained at all costs, if the position of
|
||
their aircraft was not to be disclosed to the Luftwaffe. Bomber
|
||
Command was over-confident in its ability to deliver the bomber
|
||
offensive. Fighter Command, however, had no such objections. On
|
||
22 June 1941, Germany attacked Russia and, in doing so, had to
|
||
deploy much of the Luftwaffe away from the West in order to
|
||
support its operations in the Mediterranean and the East. This in
|
||
turn freed TRE to come to the assistance of Bomber Command
|
||
which, because of rising casualties, poor navigation and bombing
|
||
inaccuracy, was now more disposed towards the use of radio and
|
||
radar aids. But TRE did not always enjoy the highest of priorities
|
||
and it took the discerning Lord Cherwell to realise that, once
|
||
Churchill had been persuaded to back priority development of
|
||
scientific navigation and bombing aids, additional measures were
|
||
necessary. This resulted in the appointment of Sir Robert Renwick
|
||
who, in addition to his other responsibilities, was required to
|
||
coordinate the research, development and production of all such
|
||
devices for aircraft.63
|
||
63 PRO Air 20/8953, p.5.
|
||
|
||
|
||
51
|
||
6. Fighter and Bomber Commands
|
||
The Royal Air Force functional Commands were created in
|
||
1936 and, in July of that year, Sir Hugh Dowding was appointed
|
||
the first Air Officer Commanding-in-Chief of Fighter Command.64
|
||
He had been Air Member for Supply and Research since September
|
||
1930 and, was, briefly, Air Member for Research and Development,
|
||
before taking up what was to prove his most formidable task as a
|
||
serving officer. He was thus in an ideal position to watch the
|
||
growth of radar, encourage its development and promote its
|
||
deployment. Under his leadership Fighter Command became an
|
||
efficient and fully integrated air defence organisation, complete
|
||
with radar early warning, fighters, communications, barrage
|
||
balloons, observers and anti-aircraft guns; it was thus well placed
|
||
to protect the United Kingdom when it was most needed. With
|
||
regard to Bomber Command, it was a different story. For the same
|
||
economic reasons as those which made the politicians favour the
|
||
production of less costly fighter aircraft, bomber production was
|
||
less favoured than that of smaller and lighter aircraft.
|
||
Consequently, Air Staff plans for heavier aircraft were not always
|
||
approved and manufacture was either delayed or scaled down. As a
|
||
consequence of financial restraints and the Air Ministry's belief
|
||
that the bomber would always get through, there was little
|
||
incentive for research and development. Consequently, Bomber
|
||
Command was neither well trained in navigational and bombing
|
||
techniques, nor equipped with suitable aircraft. It was thus
|
||
incapable in 1939 of bombing targets accurately in Germany and
|
||
inflicting any meaningful damage on German industry.
|
||
64 Denis Richards, Royal Air Force 1939-1945, vol.1, p.404.
|
||
|
||
|
||
52
|
||
Bomber Command's first Air Officer Commanding-in-Chief
|
||
was Air Chief Marshal Sir John M. Steel, GCB, KBE, CMG, but his
|
||
tenure was destined to last only a little over a year. Sir Edgar
|
||
Ludlow-Hewitt replaced him at the time of the Munich crisis. The
|
||
Command was not only short of heavy bombers but of aircrew as
|
||
well. Moreover, crews were unable to navigate accurately, especially
|
||
by night. In the circumstances the recently introduced policy of
|
||
only attacking military targets, in the event of an outbreak of war,
|
||
was generally welcomed by the AOC-in-C. Not surprisingly, the Air
|
||
Ministry was now allowed by the government to order as many
|
||
aircraft as could be produced and, as fighters were quicker and
|
||
cheaper to manufacture, the benefits of this decision fell to Fighter
|
||
Command. The Air Ministry was well aware of the danger of
|
||
expanding the force too quickly, but time was short. Due to years
|
||
of disarmament and financial stringency, half of the aircraft of
|
||
Bomber Command lacked the range to attack Germany from bases
|
||
in the United Kingdom.65 Given a numerically superior German Air
|
||
Force, Bomber Command thus could do little else but delay the
|
||
onset of a policy involving all-out attack for as long as possible.66
|
||
Even the Chief of Air Staff, Sir Cyril Newall, was compelled to
|
||
acknowledge on the outbreak of war that Bomber Command was
|
||
too weak to launch an offensive against Germany.
|
||
7. Development of Radar in Germany
|
||
A German national, Christian Hulsmeyer, first patented a
|
||
radar device in 1904.67 It was not very efficient and some twenty
|
||
65 Richard Overy, Why the Allies Won, p.107.
|
||
66 C. Webster and N. Frankland, The Strategic Air Offensive Against Germany 1939-1945, vol.1, pp.100-101.
|
||
67 David Pritchard, The Radar War, p.14.
|
||
|
||
|
||
53
|
||
five years were to elapse before the necessary technology became
|
||
available for the principles involved to be incorporated into a
|
||
practical device. A Professor Braun had built a cathode ray tube as
|
||
early as 1897, and in 1924 pulsed wireless signals were utilised to
|
||
find ranges of objects. These advances were followed by the work of
|
||
Dr Yagi of Japan who in 1929 showed how wireless signals could
|
||
be transmitted for the very first time in fine beams employing
|
||
directional aerials. By 1933, Dr R. Kuhnold, of the German Navy's
|
||
Research Department, had been experimenting with radar; a year
|
||
later the Gema Company began constructing his detection devices.
|
||
Subsequently improvements to prototypes led him to employ
|
||
pulsed transmissions operating on 600 Mcs. The upshot was that
|
||
in 1935 ships could be detected at five miles and coastlines at
|
||
twelve, the device becoming known in Germany as Dezimeter
|
||
Telegraphie or DT-Gerät. In 1936 the operating frequency was
|
||
altered to 150 Mcs, with the result that aircraft could be detected
|
||
at ranges up to thirty miles. Eventually, Dr Kuhnold produced the
|
||
Freya early warning radar initially operating on 125 Mcs, which by
|
||
the end of 1936 could detect aircraft at a range of fifty miles.68 By
|
||
the summer of 1938 Freya was ordered first by the German Navy,
|
||
who took possession of their initial equipments in 1938. It was
|
||
then ordered by the Air Force. Good though Freya was as an early
|
||
warning device, the German Navy wanted an accurate gun-ranging
|
||
device. The Gema Company obliged by producing Seektakt, an
|
||
early model of which, working on a frequency of 375 Mcs, gave a
|
||
range of nine miles. By the summer of 1938 it was fitted to the
|
||
pocket battleship Graf Spee, and the Scharnhorst and Gneisenau by
|
||
November 1939. By contrast, at the beginning of the war only two
|
||
68 Ibid., p.49.
|
||
|
||
|
||
54
|
||
ships of the Royal Navy possessed radar, both Type 79 air-warning
|
||
sets.69 The Telefunken Company too, was interested in radar and
|
||
entered the field in 1936. Perhaps they had spotted a niche in the
|
||
market, for Freya lacked a height-finding capability. The result was
|
||
the highly mobile and accurate Wurzburg set which arrived in
|
||
1938. It could plot aircraft to within very fine limits at ranges up to
|
||
25 miles, operating on 560 Mcs, and was a very accurate device
|
||
indeed. At the same time Telefunken designed and built a small
|
||
airborne radar set, trials beginning in the summer of 1939 with
|
||
Ju 52 aircraft. Some of this information found its way back to
|
||
British Intelligence, but was largely dismissed on the grounds that,
|
||
because radar was a British invention, it was unlikely that
|
||
Germany could have developed the device so quickly.
|
||
8. Development of Radio in Germany
|
||
It was Erhard Milch, who shortly after becoming a Director of
|
||
Lufthansa in 1925, insisted on blind-flying training for his pilots
|
||
and asked German industry to provide the necessary
|
||
instruments.70 With this in mind it should not come as any
|
||
surprise to find that use of wireless aids to assist with navigation
|
||
was strongly advocated in Germany before World War Two.
|
||
Consequently, during the 1930s some twenty-four medium
|
||
frequency beacons were established; by September 1940, this
|
||
figure had risen to thirty-eight. These devices transmitted a call
|
||
sign followed by a twenty-second continuous note, enabling the
|
||
crew of the aircraft to obtain a bearing on the known location of the
|
||
beacon. Frequencies employed were in the range 176-580 Kcs, and
|
||
69 Len Deighton, Blitzkrieg, p.118.
|
||
70 David Irving, The Rise and Fall of the Luftwaffe, p.19.
|
||
|
||
|
||
55
|
||
the information obtained was used to confirm turning points, and
|
||
for homing, as well as general navigation.71
|
||
As early as 1933, the German wireless industry had
|
||
anticipated the future needs of a German Air Force by starting to
|
||
experiment with various forms of wireless aids which could
|
||
possibly be used for navigation and bombing purposes, even when
|
||
aircraft were supporting the German Army in the field.72 Indeed,
|
||
the Lorenz Company evolved a short-range airfield approach
|
||
system, employing very high interference-free frequencies (VHF).
|
||
Morse dots were heard to one side of the beam, and dashes to the
|
||
other; a steady note was heard when the beam was being followed.
|
||
Unlike modern equipment, no glide path facility was fitted, but in
|
||
the horizontal plane the beam was very accurate. In the United
|
||
Kingdom the Lorenz system was known at first as Standard Blind
|
||
Approach, and, later, as Standard Beam Approach. Lufthansa, the
|
||
Luftwaffe, the Royal Air Force and others adopted this 'blind'
|
||
landing device. It was believed at the time that these VHF
|
||
transmissions were limited to a range of about 20-30 miles for an
|
||
aircraft flying at about 2000 feet. (See Figure 1). Unknown to the
|
||
Royal Air Force, the Germans had discovered that with a powerful
|
||
VHF transmitter, coupled with an appropriate aerial array, signals
|
||
could be received at distances of up to 250 miles by aircraft flying
|
||
at 20,000 feet. With the aid of a second transmitter, located so as
|
||
to provide an intersection over the target, Lorenz had developed a
|
||
blind bombing device for the Luftwaffe, operating on 30.0 to 33.3
|
||
megacycles (Mcs), with beam widths of 0.33 degrees. This device
|
||
was given the name Knickebein. Little additional training was
|
||
71 F.H. Hinsley, British Intelligence in the Second World War, vol.1, pp.550-551.
|
||
72 Ken Wakefield, Pfadfinder, pp.4-5.
|
||
|
||
|
||
56
|
||
R.V. Jones
|
||
Figure 1
|
||
Diagram explaining principle of Lorenz Beam which, at the time
|
||
was thought to have a maximum range of some fifty miles
|
||
|
||
|
||
57
|
||
required by German aircrew as the receiver was incorporated in the
|
||
standard airborne beam approach equipment FuBl 1, and could
|
||
therefore be used by the crews of all Luftwaffe bomber aircraft
|
||
fitted with standard blind approach equipment.73 (See Figure 2)
|
||
While Telefunken GmbH was manufacturing Knickebein,
|
||
Lorenz commenced work on another VHF blind bombing system,
|
||
X-Verfahren. It was developed at Rechlin by a team led by Dr Hans
|
||
Plendl and comprised a complex multi-beam device using
|
||
66.0-77.0 Mcs. The track to be followed was one of fourteen,
|
||
usually seventh from the left, and was adjusted for crosswind over
|
||
the target; the others were false or decoy beams. Lorenz,
|
||
Telefunken and Siemens all contributed to the development of
|
||
X-Gerät or Airborne Equipment. Dot-dash keying facilities were
|
||
employed akin to those of Knickebein, but the beams were much
|
||
narrower, being only 1 Km wide (1,100x) at a range of 100 Kms (62
|
||
miles). The beams, however, were made up of 180 directional
|
||
signals per minute and required an analyser to decode them,
|
||
making interference unlikely, even if the beam in use could be
|
||
identified. Until 1941, the device included two Telefunken Anna
|
||
VHF receivers, two associated aerials with separate masts, two
|
||
Siemens signal analysers, an inverter, a power distribution panel,
|
||
two course meters and an automatic bomb-releasing clock, or
|
||
X clock. To carry out a blind bombing attack required an
|
||
operational aircraft, normally a Heinkel HE 111, complete with this
|
||
equipment and a specially trained crew. In 1938 therefore the
|
||
Luftwaffe had a second blind bombing device, albeit at the time
|
||
fitted into Junkers Ju 52/3m. By 1939 it had the potential to form
|
||
and utilise a pathfinding force with its latest equipment. Not
|
||
73 Ibid. pp.5-9.
|
||
|
||
|
||
58
|
||
AIR 41/46
|
||
Figure 2
|
||
Copy of Knickebein Document
|
||
Captured in July 1940
|
||
|
||
|
||
59
|
||
content with Knickebein and X-Verfahren, Germany decided to
|
||
develop another precision blind bombing system. This was
|
||
Y-Verfahren, devised by Dr Plendl at the Rechlin Test Centre; it
|
||
was technically more advanced than the other two devices, and it
|
||
was also considerably more accurate. It employed a single VHF
|
||
beam for guidance to the target, the aircraft's position being
|
||
determined electronically by a second transmitter, employing range
|
||
or distance equipment. Using Y-Verfahren, or Benito, it was
|
||
necessary for a ground controller to pass a bomb release signal
|
||
when the aircraft was over the selected target.74 (See Figure 3)
|
||
So German radar developed completely independently of the British
|
||
and for different reasons. Germany wanted Radar for coastal
|
||
defence and for their warships, together with an early warning
|
||
radar and an accurate height-finding device with which to control
|
||
guns and searchlights. Britain, on the other hand, wanted a Chain
|
||
Home and Chain Home Low system for fighter defence. In the
|
||
United Kingdom these requirements were given a high priority. In
|
||
general German equipment was better designed and produced. The
|
||
architects of the Luftwaffe always intended that it should be a
|
||
balanced air force, consisting of fighters, bombers and transport
|
||
aircraft, capable of supporting the German army. By 1936, Dornier
|
||
had already built prototypes of the Do 19 and Junkers the Ju 89.
|
||
Goering, however, scrapped both aircraft and all four-engined
|
||
aircraft in 1937.75 By the time this mistake was recognised a year
|
||
later, and the He 177 was ordered as a substitute, with the proviso
|
||
that it should be capable of dive-bombing, it was too late to affect
|
||
74 Ibid., pp.49-51.
|
||
75 David Irving, The Rise and Fall of the Luftwaffe, pp.45, 54-55, 66.
|
||
|
||
|
||
60
|
||
AIR 41/46
|
||
Figure 3
|
||
Diagram of Benito System
|
||
|
||
|
||
61
|
||
the strategic bombing of the United Kingdom.76 By default
|
||
therefore, the Battle of Britain and the subsequent night-time Blitz,
|
||
had to be conducted by the Luftwaffe with what, essentially, was a
|
||
tactical air force. Now that the historical development of radar has
|
||
been discussed as essential background to the thesis, I will
|
||
investigate just exactly how the British discovered the German
|
||
beacons and beams and establish what they did about it.
|
||
76 Ibid., p.66.
|
||
|
||
|
||
62
|
||
CHAPTER TWO: GERMAN BEAMS AND BEACONS
|
||
1. KGr 100, X-Verfahren and Knickebein
|
||
In Germany in March 1939, selected aircrews were receiving
|
||
training in the use of the X-Verfahren system. This was a wireless
|
||
navigation and blind bombing beam. Heinkel (He) 111 aircraft were
|
||
employed and practice bombs were being dropped on targets, with
|
||
the aid of X-Gerät equipment, from heights as high as 28,000 to
|
||
30,000 feet, often with accurate results. The unit concerned, LnAbt
|
||
100, made sufficiently good progress for it to be declared
|
||
operational by 1 September 1939, in time for the attack on
|
||
Poland.1 X-Gerät was thus used operationally for the first time
|
||
against military targets by day and by night, the crews concerned
|
||
gaining valuable experience with this device. Soon after the
|
||
outbreak of hostilities, the Luftwaffe was conducting
|
||
reconnaissance and limited anti-shipping strikes over the North
|
||
Sea and against elements of the British fleet based on the Firth of
|
||
Forth. On 18 November 1939, the Luftwaffe unit concerned became
|
||
a bomber wing, KGr 100, and when the tempo of these operations
|
||
was increased, the opportunity was taken to hold Knickebein (a
|
||
more elementary wireless navigation and blind bombing beam) and
|
||
X-Verfahren trials over France and the East Coast of Britain in
|
||
order to prepare for the forthcoming bombing campaign. To
|
||
support these activities the existing M/F beacons and Knickebein
|
||
transmitters were augmented by appropriate X-Verfahren
|
||
transmitters positioned near Baden Baden, Krefeld and on the
|
||
island of Borkum.
|
||
1 Ian Kershaw, The ‘Hitler Myth’: Image and Reality in the Third Reich (Clarendon Press, Oxford, 1987); Ken Wakefield, Pfadfinder, p.16.
|
||
|
||
|
||
63
|
||
2. Denmark, Norway, the Blitzkrieg and Dunkirk
|
||
On the earlier advice of Admiral Raeder, Hitler authorised
|
||
preparation of a detailed plan for the seizure of Norway on 17
|
||
January 1940.2 Warnings of Operation Weser Rubung had been
|
||
received in Whitehall but largely ignored and thus the invasion of
|
||
Denmark and Norway on 9 April achieved total surprise.3 KGr 100
|
||
took part in this operation but, somewhat surprisingly, without its
|
||
X-Gerät equipment.4 Just over a month later German forces
|
||
attacked in the West, frequently employing Blitzkrieg tactics, with
|
||
the result that Belgium, Holland, Luxembourg and France soon fell
|
||
to the combined effects of the German Army and Air Force.5 The
|
||
British Expeditionary Force (BEF) was forced to retreat and leave
|
||
most of its heavy guns and transport behind, together with two
|
||
Type-X cipher machines, without, fortunately for the British, their
|
||
all-important cipher wheels. By early June 1940, less than one
|
||
month from the start of the German assault, much of the BEF had
|
||
been evacuated from the continent of Europe though at
|
||
considerable cost in aircraft, especially Hurricane fighters, ships,
|
||
and men.6
|
||
3. Knickebein Revealed
|
||
Shortly after the catastrophe at Dunkirk in May and June
|
||
1940 GC&CS, at its new headquarters at Bletchley Park
|
||
successfully decoded an Enigma message referring to a radio beam
|
||
2 Ibid., p.20.
|
||
3 F.H. Hinsley, British Intelligence in the Second World War, vol.1, pp.115-117.
|
||
4 Ken Wakefield, Pfadfinder, pp.21-22.
|
||
5 Ian Kershaw, The ‘Hitler Myth’: Image and reality in the Third Reich, p.152.
|
||
6 Martin Gilbert, Winston S. Churchill, vol.6, pp.406-407.
|
||
|
||
|
||
64
|
||
situated near Kleves, the nearest part of Germany to the United
|
||
Kingdom.7 To Dr R.V. Jones, the brilliant scientist of RAF Scientific
|
||
Intelligence at the Air Ministry, this news, together with that
|
||
obtained from the interrogation of prisoners of war and
|
||
examination of German radio equipment taken from crashed
|
||
aircraft, confirmed the existence of a system of narrow radio beams
|
||
used for navigation and bombing. Moreover, the disclosures in
|
||
1939 contained in the Oslo Report of, inter alia, a description of a
|
||
radar early warning system and the finding of a radio rangefinder
|
||
aerial with an operating frequency of 57 or 114 cms on the Graf
|
||
Spee by L.H. Bainbridge-Bell, strongly suggested to Dr Jones that
|
||
the Germans were fully capable of producing radar - if they did not
|
||
already possess it. His opinion, however, was not universally
|
||
accepted in London.8 In accordance with thinking at the time,
|
||
doubt was also expressed that radio waves transmitted from
|
||
Germany in the 30 megacycle band, and similar to those used for
|
||
the Lorenz landing beam, could be employed for such purposes
|
||
over the United Kingdom, especially as the maximum range of
|
||
these radio beams was considered to be around 50 miles, at most.9
|
||
Sir Henry Tizard was among those who expressed the view that the
|
||
beams could not provide pinpoint accuracy over the ranges
|
||
envisaged and, because of this, he considered that far too much
|
||
7 R.V. Jones, Most Secret War, pp.92-94.
|
||
8 PRO Air 20/1622 ASIR Report No.5 dd. 23 May 40; F.H. Hinsley, British Intelligence in the Second World War, vol.1, pp.508-512. The Oslo Report sent anonymously to the British Naval Attaché in Oslo in November 1939 was one of the most remarkable intelligence reports of the entire war. It disclosed, inter alia, the existence of the new German bomber aircraft the Ju88, and its production program, the presence of the secret Luftwaffe laboratories and test range at Rechlin, and that German radar provided early warning of the RAF attack on Wilhelmshaven, 4-5 September 1939.
|
||
9 Ronald W.Clark, Tizard, (Methuen and Company Limited, 1965), p.230.
|
||
|
||
|
||
65
|
||
excitement was being generated about the whole affair.10
|
||
Nevertheless, since this frequency band was one utilised by
|
||
German blind landing receivers, installed in Luftwaffe bomber
|
||
aircraft, the system could be used routinely by aircrew of the
|
||
bomber force.11 It was known as Knickebein (or Crooked Leg) to the
|
||
Luftwaffe and by the code name Headache to those involved with
|
||
such matters in the United Kingdom.12
|
||
In spite of the fact that the Standard Telephone Company
|
||
owned the rights to the Lorenz system, the pre-war RAF possessed
|
||
nothing like it.13 Although the Blind Approach Training and
|
||
Development Unit was formed at Boscombe Down on 29 September
|
||
1939, Blind Approach Training was only introduced to the service
|
||
in general in January, 1940, some five months after the outbreak
|
||
of war.14 Moreover, the necessary instrumentation for operational
|
||
aircraft was not fitted until the following December.15 On 15 June,
|
||
1940, with a defeated Army at home, almost bereft of its heavy
|
||
guns and equipment, and an invasion expected daily, a meeting
|
||
was held at the Air Ministry under the chairmanship of Air Marshal
|
||
Sir Philip Joubert, who had been appointed the day before by the
|
||
Secretary of State, Sir Archibald Sinclair, to take charge of the
|
||
investigation into the German beams.16 At this meeting it was
|
||
decided that there was sufficient evidence of beam activity to take
|
||
10 Ibid.
|
||
11 PRO Air 41/46 App.“A”.
|
||
12 PRO Avia 7/779; PRO Avia 26/407.
|
||
13 John Ray, The Night Blitz 1940-1941, p.124.
|
||
14 Norman Longmate, The Bombers (Hutchinson, Norwich, 1983), p.68.
|
||
15 Tim Mason, The Secret Years, p.310; Directorate of Public Relations (RAF), Chronology (MOD, 1963), p.16.
|
||
16 R.V. Jones, Most Secret War, pp.95-96.
|
||
|
||
|
||
66
|
||
immediate action. It was not long in coming. The following
|
||
afternoon, at a further meeting, the Director of Signals was
|
||
authorised to form a flight of aircraft for the purpose of finding the
|
||
beams. Other decisions were: Watson Watt and R.V. Jones to
|
||
inquire into the possibility of placing receivers on Chain Home
|
||
radar towers and Group Captain L.F. Blandy, a Deputy Director of
|
||
Signals and head of the RAF 'Y' Service, to evolve a method of
|
||
jamming the Knickebein transmissions.17 Such jamming required
|
||
the production in the output of the enemy receiver, of sufficient
|
||
energy to prevent recognition of the wanted signal.18
|
||
Under the threat of German airborne and seaborne landings,
|
||
Blandy quickly created a section in the Air Ministry to deal with the
|
||
jamming of German wireless beams and placed Wing Commander
|
||
E.B. Addison, a signals specialist, in charge of such activities.19
|
||
Accordingly, American Hallicrafter receivers were purchased at an
|
||
appropriate radio retailer, as none were available from RAF
|
||
sources, and placed on five of the Chain Home's radar masts, by
|
||
now three hundred-feet high, in an attempt to intercept the beams
|
||
from the ground.20 (See Figure 4) Subsequently, the listening
|
||
watches were regularised and placed on a formal basis; and later,
|
||
when it was established that the current scientific theory was
|
||
invalid, and that the German beams could indeed be used over the
|
||
United Kingdom for the purposes envisaged, the network was
|
||
extended inland. It was also decided to re-form the recently
|
||
disbanded Blind Approach Training and Development Unit (the
|
||
17 Norman Longmate, The Bombers, p.68; PRO Air 20/8953, p.38.
|
||
18 PRO Air 26/280; PRO Air 26/580; PRO Avia 7/779.
|
||
19 PRO Air 26/280; PRO Air 26/580.
|
||
20 R.V. Jones, Most Secret War, p.97.
|
||
|
||
|
||
67
|
||
Brian James
|
||
Figure 4
|
||
Ultra High Frequency Radio Receiving Equipment
|
||
Hallicrafters S 36
|
||
|
||
|
||
68
|
||
only one) as the Wireless Intelligence Development Unit (WIDU) at
|
||
Boscombe Down, near Salisbury, with a detachment at RAF Wyton,
|
||
in Huntingdonshire.21 The aircraft establishment of the new unit
|
||
was increased to eight Ansons and three Whitleys, with a
|
||
corresponding increase in air and ground crews.22 RAF pilots
|
||
experienced in beam flying made up the nucleus of the new unit,
|
||
which was commanded by Wing Commander R.S. Blucke.23
|
||
Among the first aircraft made available for the air investigation was
|
||
an Avro Anson, fitted with Lorenz blind landing apparatus. In an
|
||
attempt to hear beam signals from the ground, a van was obtained
|
||
and fitted with a United States Hallicrafter radio receiver and, for
|
||
crude jamming purposes, a hospital diathermy jammer set tuned
|
||
to 31.5 Mcs. The remainder of the month was spent searching for
|
||
proof of Knickebein activity and deciding on the best policy for
|
||
interfering with the beams effectively, when found.24 Two days
|
||
later, further information from intelligence sources confirmed the
|
||
position of the Knickebein transmitters in Germany at Kleves and
|
||
at Bredstedt.25
|
||
On the third day of the air search, during the evening of the
|
||
21 June, 1940, the beams were found on the expected frequencies
|
||
of 31.5 and 30.0 megacycles, respectively, by an Anson aircraft of
|
||
the newly formed WIDU, captained by H.E. Bufton.26 (See Figure 5)
|
||
Three nights later, one of the tower listening stations reported
|
||
21 For a good description of life at Boscombe Down at the time, see Tim Mason, The Secret Years.
|
||
22 Michael Cumming, Beam Bombers, p.15.
|
||
23 PRO Air 26/580.
|
||
24 PRO Air 20/1623; PRO Air 20/1626; PRO Air 41/46 and App.“A”.
|
||
25 PRO Air 41/46, p.4.
|
||
26 PRO Air 20/1624.
|
||
|
||
|
||
69
|
||
R.V. Jones
|
||
Figure 5
|
||
Knickebein Beams found evening 21st June, 1940
|
||
|
||
|
||
70
|
||
hearing beam type signals on similar frequencies. With an
|
||
elementary listening system in place, countermeasures could now
|
||
start to be devised. While the listening facilities were being
|
||
organised, emergency action was taken against the Knickebein
|
||
beam itself. A number of electro-medical (diathermy) sets were
|
||
borrowed from local hospitals and used as crude jammers, two of
|
||
the appliances being modified to cover 30 mcs, but without keying
|
||
facilities. They were placed in vehicles, containing receivers for
|
||
intercepting beam signals and sent Wyton in Huntington and to
|
||
Boscombe Down in Wiltshire, for dispatch to any specified target
|
||
area.27 Tests by No 109 Squadron, however, indicated that the
|
||
selected sets were unlikely to be successful. Further apparatus was
|
||
thus obtained from similar sources, twelve of the most suitable
|
||
being altered for the purpose and provided with audio modulation.
|
||
They were deployed at police stations on the East and South
|
||
Coasts and controlled from H.Q. Fighter Command.28 A few days
|
||
later Intelligence confirmed the existence of Freya, a German Early
|
||
Warning radar, and the X-Verfahren (Wotan I) and the more
|
||
advanced Y-Verfahren (Wotan II) navigation and bombing devices,
|
||
which came as a shock in London. About the same time,
|
||
intelligence was received about a new Knickebein transmitter to be
|
||
set up in the Cherbourg and Brest area of France. The conclusion
|
||
drawn was that the Germans clearly intended to make full use of
|
||
all these systems in order to expedite the forthcoming bombing
|
||
campaign against the United Kingdom. Hence the rush by the
|
||
Germans to erect appropriate aerials in northwest France and
|
||
Holland, as quickly as possible. As mentioned earlier, there had
|
||
been insufficient time for Luftwaffe signals personnel to erect
|
||
27 A.I.1 (e) Reports 26 June 1940 and 28 June 1940, quoted in PRO Air 41/46, pp.4-5.
|
||
28 Ibid.
|
||
|
||
|
||
71
|
||
Knickebein equipment during the rapid Polish campaign, however,
|
||
the smaller and more mobile X-Verfahren was deployed and used
|
||
operationally.
|
||
Before appropriate jamming equipment could be designed and
|
||
produced, it was essential to know as much as possible about how
|
||
Knickebein worked. Information from prisoners of war, maps from
|
||
aircraft that had crashed in the United Kingdom and Enigma
|
||
decrypts provided valuable clues about Knickebein. It was thus
|
||
believed at the time that the early Knickebein was capable of being
|
||
directed to a specific location over the United Kingdom, within an
|
||
accuracy of 0.1 degree, thus enabling the crew of an aircraft to find
|
||
a target in adverse weather conditions by day or night. The
|
||
airborne receiver was incorporated in the standard Lorenz landing
|
||
beam equipment, E.Bl.1, or Empfänger Blind 1. The early mark of
|
||
the ground transmitter comprised two aerial arrays set at an angle
|
||
of 165 degrees, each array consisting of two stacks of eight vertical,
|
||
centre-fed full-wave wire aerials, complete with reflectors, operating
|
||
on the fixed frequencies of 30 and 31.5 megacycles. The aerials
|
||
were attached to a framework 315ft by 100ft that could be rotated
|
||
in the direction of the target with the aid of wheels. Interlocked
|
||
dots and dashes were then transmitted by this system on the audio
|
||
frequency of 1150 cycles per second as complementary signals.
|
||
Along the three-degree width equi-signal, a continuous note could
|
||
be heard in a receiver, while dots could be received on one side and
|
||
dashes to the other. Discrimination in determining the continuous
|
||
note gave the effect of a beam. Morse keying occurred at a rate of
|
||
60 characters per minute and the ratio between the duration of the
|
||
dot and the dash was 1/7. As was to be expected with VHF
|
||
transmissions, the range of Knickebein varied with the height of
|
||
|
||
|
||
72
|
||
the aircraft.29 By the use of two Knickebein transmitters it was
|
||
possible to arrange for the beams to meet over the intended target.
|
||
Indeed, intelligence had already suggested that these were
|
||
positioned at Bredstedt, Husum and Kleve. The Germans
|
||
subsequently installed a number of Knickebein transmitters along
|
||
the coast of the Continent, adjacent to the British Isles, thereby
|
||
reducing the height at which their aircraft would otherwise have to
|
||
operate, when attacking industrial and other targets situated in the
|
||
United Kingdom.30 (See Figure 6)
|
||
4. Luftwaffe M/F Beacons and RAF Countermeasures
|
||
In July 1940, the usually accepted view held in the United
|
||
Kingdom was that medium frequencies were not suitable for
|
||
accurate navigation purposes at night, because of poor propagation
|
||
leading to inaccurate bearings. Nevertheless, a further decision was
|
||
taken that month to prevent the Luftwaffe from using the well
|
||
known pre-war network of medium frequency radio beacons, which
|
||
was now being extended to cover the occupied countries and the
|
||
United Kingdom. By March, 1940, some forty-six were in operation
|
||
and Sir Hugh Dowding, AOC-in-C Fighter Command, had good
|
||
reason to believe that the Luftwaffe could be using the beacons as
|
||
an aid to navigate accurately to targets situated in the United
|
||
Kingdom.31 In order to put a stop to this, a system of masking
|
||
German beacons was introduced.32 The Radio Branch of the GPO
|
||
had earlier devised this masking, or Meacon, system for a slightly
|
||
29 Alfred Price, Instruments of Darkness, p.23.
|
||
30 PRO Air 41/46 App.“A”.
|
||
31 PRO Air 20/8963, Enclosures 4A and 5A.
|
||
32 PRO Air 41/46, p.8.
|
||
|
||
|
||
73
|
||
|
||
|
||
74
|
||
different purpose.33 Frequencies could be altered quickly, the
|
||
transmitters being designed to re-radiate the German beacon
|
||
signals thus making it difficult, or impossible, for these to be used
|
||
for accurate Direction Finding and navigation purposes.
|
||
While the Meacon scheme was being developed, it was
|
||
intended, as an emergency measure in case more jamming capacity
|
||
should be required, to earmark some one hundred T.77
|
||
transmitters, already installed at RAF stations for normal
|
||
communication purposes. In this way the whole of the country
|
||
could have been covered in clusters or groups of RAF jammers,
|
||
each of which would have been capable of dealing with German
|
||
beacons. The need, however, for this measure did not arise and the
|
||
scheme was never implemented.34 The first Meacons were ready
|
||
during July, at the start of the Battle of Britain.35 Air tests were
|
||
conducted immediately to prove the efficacy of the first station
|
||
based at Flimwell, near Tunbridge Wells.36 (See Figure 7) Full
|
||
results of the tests, however, were not available until two months
|
||
later when they indicated that crews of Luftwaffe aircraft, whilst
|
||
over the United Kingdom, could experience errors of between 9
|
||
degrees and 59 degrees when using beacons based in France.
|
||
Early in the following month, Dowding wrote a letter to the
|
||
Under Secretary of State for Air asking for immediate action to be
|
||
taken against these beacons.37 Fortunately, this requirement had
|
||
33 Post Office Eng. Dept. Radio Reports Nos. 597, 598 and 599, Post Office Instruction GB1, the GB Scheme, quoted in PRO Air 41/46, p.7.
|
||
34 PRO Air 26/580, p.2; PRO Air 20/8953 E.4A.
|
||
35 PRO Air 41/46 pp.7-8; PRO Air 41/46 App.“C”, Fig.1; PRO Air 26/580.
|
||
36 Laurie Brettingham, Beam Benders, Royal Air Force No 80 (Signals) Wing 1940-1945, p.18.
|
||
37 PRO Air 26/580; PRO Air 20/8963, E.4A.
|
||
|
||
|
||
75
|
||
AIR 41/46
|
||
Figure 7
|
||
Meacons & German M/F Beacons
|
||
|
||
|
||
76
|
||
been foreseen by the BBC and the GPO, and more powerful
|
||
Meacons designed. Some fifteen equipments were thus operating
|
||
by the end of the month. These were positioned at Flimwell,
|
||
Harpenden, Templecombe, Henfield and Petersfield. Air tests
|
||
continued during the Meacon build-up period and at the same time
|
||
comparative field strengths were obtained of German beacons and
|
||
RAF Meacon equipment.38 Such was the concern, however, felt
|
||
about the threat posed to the United Kingdom by the employment
|
||
of these aids that, at one time, use of the BBC's high-powered
|
||
transmitters was contemplated for jamming the whole band of
|
||
frequencies employed by the German Medium Frequency system.
|
||
Ten transmitters would have been required, the frequency of each
|
||
transmitter being modified to vary over a band of between 30 to 40
|
||
Kcs. But unless these had been operated in synchronised groups of
|
||
at least three, the Luftwaffe could have used them as beacons for
|
||
its own crews, thus outweighing any advantage of employing them
|
||
as jammers.39
|
||
The RAF airmen operating the Meacon equipment needed
|
||
much skill. Not only were they required to be fully conversant with
|
||
the Meacon itself, but had to be aware of the German call-signs
|
||
and the frequencies allocated to German beacons, together with
|
||
their radiated power and location. Moreover, the success of the
|
||
system was jeopardised every time the Germans switched
|
||
frequencies and/or beacons.40 Fortunately the RAF Y 'Listening'
|
||
Service, especially No. 61 Wireless Unit, under the command of
|
||
Wing Commander W.G. Swanborough, based at RAF Cheadle,
|
||
38 Ibid.
|
||
39 PRO Air 40/2242.
|
||
40 PRO Air 41/46, p.8; Ted Sweet, Enemy below!, pp.27-28.
|
||
|
||
|
||
77
|
||
knew both the frequency and the make-up of the Luftwaffe call
|
||
signs.41 Other factors also had to be taken into consideration. The
|
||
allocation of meacons to German beacons by the RAF Controllers
|
||
depended on the following: the number of Luftwaffe beacons in use
|
||
at any one time, the intended target or aircraft tracks, the power of
|
||
available meacons, the extent meacon transmissions would affect
|
||
bearings of beacons of different power, and the fact that meacons
|
||
could not be employed if sited on a line joining a German beacon
|
||
and the aircraft concerned, together with a number of technical
|
||
matters such as frequency spacing, harmonic values and receiver
|
||
capabilities.
|
||
5. Formation of No 80 (Signals) Wing
|
||
On 25 July, 1940, early in the first phase of the Battle of
|
||
Britain, while Luftwaffe aircraft were attacking convoys in the
|
||
channel, the Assistant Chief Of Air Staff (Radio) called a meeting at
|
||
the Air Ministry, to discuss how radio countermeasures against
|
||
Knickebein and the German beacons could best be organised. It
|
||
was decided that the useful application of such measures could
|
||
only be achieved by an officer having a complete knowledge of
|
||
German aircraft movements over or near the United Kingdom.
|
||
Early control was thus placed in the hands of HQ Fighter
|
||
Command. It soon became apparent, however, that RAF radio
|
||
countermeasures would be required on an ever-increasing scale,
|
||
involving a much greater organisation than hitherto envisaged.
|
||
Consequently, at a similar meeting held four days later, a decision
|
||
was taken for the establishment of a special formation, to be
|
||
known as No. 80 (Signals) Wing, which would assume
|
||
41 Aileen Clayton, The Enemy is Listening, p.60; PRO Air 20/163 and App.11; F.H. Hinsley, British Intelligence in Second World War, vol.1, p.323. |