期刊
CLASSICAL AND QUANTUM GRAVITY
卷 38, 期 15, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/1361-6382/ac0a85
关键词
space-borne gravitational-wave detector; geocentric spacecraft; solar aspect angle; TianQin mission; space thermal environment
类别
资金
- National Key Research and Development Program of China [2020YFC2201202]
- NSFC [11805287]
This paper analyzes the incident thermal radiation onto TianQin satellites from the Sun-Earth-Moon system, discussing the results in both time and frequency domains. The spectral analysis shows that the solar constant fluctuation plays a dominant role in the target frequency band.
TianQin is a proposed space-borne gravitational wave observatory in high geocentric orbits, exposed to radiating heat sources in space. Due to the stringent thermal stability requirements from the key payloads, the analysis of space thermal environment is of great importance. This paper studies the incident thermal radiation onto the TianQin satellites from the Sun-Earth-Moon system. The solar constant fluctuation (SCF) and the Earth's land-type features, based on the meteorological data, are considered, and an analytic function of lunar surface temperature is used. The analysis includes the solar radiation, the infrared radiation, and the albedo. The results are discussed in both time and frequency domains. The spectral analysis indicates that in the target frequency band of 0.1 mHz-1 Hz, the SCF plays a dominant role, and that the associated incident thermal disturbance is similar to 5 W m(-2) Hz(-1/2) for TianQin, at the same level of the LISA in heliocentric orbits. In addition, the power spectra of the Earth's and Moon's heating fluctuation are given, both order-of-magnitude weaker than that of the solar radiation. The results may contribute to the thermal design and the noise analysis for TianQin.
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