Non-gravitational force measurement and correction by a precision inertial sensor of TianQin-1 satellite

Zhou, An-Nan; Cai, Lin; Xiao, Chun-Yu; Tan, Ding-Yin; Li, Hong-Yin; Bai, Yan-Zheng; Zhou, Ze-Bing; Luo, Jun

doi:10.1088/1361-6382/ac68c9

Non-gravitational force measurement and correction by a precision inertial sensor of TianQin-1 satellite

May 12, 2022

18 pages

Published in:

Class.Quant.Grav. 39 (2022) 11, 115005

Published: May 12, 2022

DOI:

10.1088/1361-6382/ac68c9

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Abstract: (IOP)

Non-gravitational force models are critical not only for the applications of satellite orbit determination and prediction, but also for the studies of gravitational reference sensors in space-based gravitational wave detection missions and accelerometers in gravity satellite missions. In this paper, based on the inertial sensor data from the TianQin-1 (TQ-1) mission, a correction has been made in the non-gravitational force models by applying additional terms related to the orbital periods. After taking into account this correction, about 37 hours of TQ-1 inertial sensor data is calibrated in the sensitive axes, i.e. y- and z-axes, by comparing with the simulated non-gravitational accelerations. It is indicated that the peak-to-peak value of the non-gravitational acceleration correction terms are about 2% and 13% of the measured accelerations in the y- and z-axes, respectively. Within the frequency band below 0.01 Hz, the root mean square of calibration residual errors in y- and z-axes are suppressed from 1.03 × 10

^{−9}

and 3.872 × 10

^{−9}

m s

^{−2}

to 8.14 × 10

^{−10}

and 1.343 × 10

^{−9}

m s

^{−2}

, respectively. The bias and scale factor of the inertial sensor are also obtained from the calibration by the method of least-squares fit. Meanwhile, the inertial sensor measurements are validated and their signal compositions are analyzed.

non-gravitational force
TQ-1 satellite
inertial sensor
model correction
calibration

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