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Design of Superconducting Gravity Gradiometer Cryogenic System for Mars Mission.

机译：火星任务超导重力梯度仪低温系统设计。

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Measurement of a planets gravity field provides fundamental information about the planets mass properties. The static gravity field reveals information about the internal structure of the planet, including crustal density variations that provide information on the planets geological history and evolution. The time variations of gravity result from the movement of mass inside the planet, on the surface, and in the atmosphere. NASA is interested in a Superconducting Gravity Gradiometer (SGG) with which to measure the gravity field of a planet from orbit. An SGG instrument is under development with the NASA PICASSO program, which will be able to resolve the Mars static gravity field to degree 200 in spherical harmonics, and the time-varying field on a monthly basis to degree 20 from a 255 x 320 km orbit. The SGG has a precision two orders of magnitude better than the electrostatic gravity gradiometer that was used on the ESAs GOCE mission. The SGG operates at the superconducting temperature lower than 6 K. This study developed a cryogenic thermal system to maintain the SGG at the design temperature in Mars orbit. The system includes fixed radiation shields, a low thermal conductivity support structure and a two-stage cryocooler. The fixed radiation shields use double aluminized polyimide to emit heat from the warm spacecraft into the deep space. The support structure uses carbon fiber reinforced plastic, which has low thermal conductivity at cryogenic temperature and very high stress. The low vibration cryocooler has two stages, of which the high temperature stage operates at 65 K and the low temperature stage works at 6 K, and the heat rejection radiator works at 300 K. The study also designed a second option with a 4-K adiabatic demagnetization refrigerator (ADR) and two-stage 10-K turbo-Brayton cooler.

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作者
Li, X.; Lemoine, F. G.; Shirron, P. J.; Paik, H. J.; Griggs, C. E.; Moody, M. V.; Han, S. C.; Zagarola, M.;
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年度 2016
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Cryogenic cooling; Superconducting devices; Gravitational fields; Gravity gradiometers; Thermal conductivity; Magnetic fields; Demagnetization; Spherical harmonics; Superconductivity; Mars missions; High temperature; Low temperature;

机译：低温冷却;超导装置;引力场;重力梯度仪;导热系数;磁场;退磁;球谐波;超导;火星任务;高温;低温;
入库时间 2022-08-29 10:46:11

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1. A Full-Tensor Superconducting Gravity Gradiometer System Composed of Levitation-Type Accelerometers [J] . Lee Soon-Gul Journal of the Korean Physical Society . 2019,第3期

机译：一种由悬浮式加速度计组成的全张量超导重力梯度计系统
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机译：超导飞机推进器低温冷却系统设计概念建模
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机译：6-32超导腔低温垂直测试系统的设计与运行
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机译：使用轨道超导重力梯度计探索月球和火星 - （PPT）
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机译：超导重力计的引力平方反比定律零检验。
6. Tuning the Stiffness Balance Using Characteristic Frequencies as a Criterion for a Superconducting Gravity Gradiometer [O] . Xikai Liu, Dong Ma, Liang Chen, 2018

机译：使用特征频率作为超导重力梯度仪的标准来调节刚度平衡
7. The design of a system of adjustable superconducting plates for balancing a gradiometer [O] . Overweg, J.A., Peters, M.J. 1978

机译：用于平衡梯度仪的可调超导板系统的设计
8. Design of Superconducting Gravity Gradiometer Cryogenic System for Mars Mission. [R] . Li, X., Lemoine, F. G., Paik, H. J., 2016

机译：火星任务超导重力梯度仪低温系统设计。

Design of Superconducting Gravity Gradiometer Cryogenic System for Mars Mission.

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