180 lines
6.1 KiB
Plaintext
180 lines
6.1 KiB
Plaintext
PHYSICAL REVIEW D
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VOLUME 44, NUMBER 8
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15 OCTOBER 1991
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Observation of 1990 solar eclipse by a torsion pendulum
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Luo Jun, Li Jianguo, and Zhang Xuerong Huazhong University of Science and Technology, Wuhan, China
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V. Liakhovets Patrice Lumumba Peoples Friendship University, Moscow, U.S.S.R.
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M. Lomonosov and A. Ragyn Krasnopresnenskaya Observatory, Sternberg Astronomical Institute, Moscow, U.S.S.R
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(Received 12 December 1990)
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During the solar eclipse of 22 July 1990 in the city of Bielomorsk of the U.S.S.R., we repeated the torsion pendulum experiment of Saxl and Allen, who reported an anomalous period increase during the solar eclipse of 7 March 1970. The relative change in the pendulum's period associated with the eclipse was found to be less than 5.2X (90% confidence).
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During the solar eclipse of 7 March 1970, Saxl and Al-
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len [I] observed the part periods of a torsion pendulum to
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have relatively increased by about 2.7 X
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This
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anomalous phenomenon cannot be explained on the basis
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of classical gravitational theories. Neither has it been re-
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ported again in the subsequent two decades. To examine
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the validity of this anomalous phenomenon, we designed
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a torsion pendulum and took part in the international
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scientific expedition, organized by Moscow State Univer-
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sity, to the region of Bielomorsk city in North Karelia, to
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observe the eclipse on 22 July 1990. Our experiment is
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not a simple repeat of the Saxl and Allen one, but has
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some advantages compared with their earlier work. We
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can obtain much more information from the measure-
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ment of each consecutive half-period of a torsion pendu-
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lum by a special time-delay counter. From the data, we
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can decide whether the full periods have changed and
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whether the equilibrium point of the torsion pendulum
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has drifted during the solar eclipse.
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The torsion pendulum and its recording system were
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made at the Huazhong University of Science and Tech-
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nology (China). The disk of the torsion pendulum with
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which the subsequent half-period observations were made
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is about 70 g and made from high-purity aluminum
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(99.9%). It is suspended from an isoelastic tungsten wire
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of diameter 25 p m and length about 130 mm. The pen-
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dulum is installed in an aluminum chamber which is sup-
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ported by three adjustable bars. A mirror is attached to
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the mounting of the disk. When a laser beam goes
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through a glass window of the chamber and is reflected
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by the mirror, it scans across a photoelectric diode,
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recording both in its clockwise motion and counterclock-
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wise return. One half-period of the torsion pendulum
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was timed by photoelectrically gating the output of a
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crystal oscillator (4 MHz) as the disk rotated to a mid-
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point where its speed approached the maximum value.
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By means of a 25-sec time delay, we can write down the
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data shown on a display (see Fig. 1).
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During the day of the solar eclipse in Bielomorsk, the
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pendulum was started at 4:00 a.m. about 1 h before the beginning of the solar eclipse. We recorded the periods of the pendulum from 4:10 a.m. to 7:00 a.m., which is shown in Fig. 2 by points represented by circles. The beginning of the eclipse at 5:02 a.m. the full eclipse from 5:53 a.m. to 5:55 a.m., and its end at 6:49 a.m. are also indicated on this graph. As compared with the result of a comparison experment on 21 July (1 day before the eclipse), which is shown in Fig. 2 as points shown as triangles, we can find that the two curves are completely similar, except for a steady difference of about 10 ms. This difference in periods is due to the difference in magnitude of the initial angular amplitudes. If the amplitude of the torsion pendulum were used as the abscissa instead of the observation number in Fig. 2, it would be very evident that the two curves almost coincide. It means that
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FIG. 1. Schematic of the experimental apparatus including the optical and time-recording systems.
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9 2611
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@ 1991 The American Physical Society
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2612
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BRIEF REPORTS
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5
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10
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15
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20
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25
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30
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35 40 45
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Observation number
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FIG. 2. Period versus observation number. A , B, and C represent the onset, midpoint, and end point of the eclipse, respectively.
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Observation number (a) data of 22 July 1990
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Observation number (b) data of 2 1 July 1990
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FIG. 3. Period deviations after correcting systematic errors. (a)Data of 22 July 1990and (b)data of 21 July 1990.
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44
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BRIEF REPORTS
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2613
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the period of the torsion pendulum has no anomalous in-
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creases during the eclipse.
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It is also to be noted that the period curves drift with
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the decay of the angular amplitude of pendulum. This
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effect can be explained as the variation in damping torque
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acting on the pendulum with its angular speed. This
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effect has been examined in detail both in experiments
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and in a theoretical analysis 121. After removing the sys-
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tematic errors from the recordings of period, we can ob-
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tain the deviation of each measured period from the
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theoretical value as shown in Fig. 3. The rms deviations
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of the period changes as shown in Fig. 3(a) and 3(b) are
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1.5 and 1.2 ms, respectively. With the t test, which has
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been applied to establish the significance of the difference
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between the observed and calculated values of the periods
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in two experiments, we found that the relative change in
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the pendulum's period associated with the eclipse was
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less than 5.2 X
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(90% confidence).
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Examination of the half periods of the torsion pendulum also shows that the equilibrium point has no anomalous drift.
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We cannot say what possible systematic error or errors would account for the results of Saxl and Allen, but to the limit of our experimental sensitivity, there is no observed anomalous period increases of the torsion pendulum during the solar eclipse at a level much smaller than the effect they reported.
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International travel support came from the National Natural Science Foundation of China. We thank our friends of Lumumba University and Sternberg Astronomical Institute for their kind cooperation. We also thank Professor V. D e Sabbata, F. Pedrielli, G. Bertault, V. Rudenko, V. Milyukov, V. Melnikov, and L. Savrov for their advice and helpful discussions.
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[ I ] E. Sax1and M. Allen, Phys. Rev. D 3, 823 (1971).
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[2] Luo Jun and Li Jianguo, J. Huazhong Univ. Sci. Technol. 17, 135 (1989).
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