A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft

Ren Xiang Hu; Xu Shan; Guang Yuan Yuan; Shu Wen Wang; Wei Hang Zhang; Wei Qi; Zhe Cao; Yi Ren Li; Man Ming Chen; Xiao Ping Yang; Bo Wang; Si Pei Shao; Feng Li; Xiao Qing Zhong; Dan Fan; Xin Jun Hao; Chang Qing Feng; Zhen Peng Su; Cheng Long Shen; Xin Li; Gu Yue Dai; Bing Lin Qiu; Zong Hao Pan; Kai Liu; Chun Kai Xu; Shu Bin Liu; Qi An; Tie Long Zhang; Yu Ming Wang

doi:10.1007/s11431-018-9288-8

A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft

Ren Xiang Hu
, Xu Shan^*
, Guang Yuan Yuan
, Shu Wen Wang
, Wei Hang Zhang
, Wei Qi
, Zhe Cao
, Yi Ren Li
, Man Ming Chen
, Xiao Ping Yang
, Bo Wang
, Si Pei Shao
, Feng Li
, Xiao Qing Zhong
, Dan Fan
, Xin Jun Hao
, Chang Qing Feng
, Zhen Peng Su
, Cheng Long Shen
, Xin Li

Gu Yue Dai, Bing Lin Qiu, Zong Hao Pan, Kai Liu, Chun Kai Xu, Shu Bin Liu, Qi An, Tie Long Zhang, Yu Ming Wang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

A low-energy ion spectrometer (LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular- and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90° (–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.

Original language	English
Pages (from-to)	1015-1027
Number of pages	13
Journal	Science China Technological Sciences
Volume	62
Issue number	6
DOIs	https://doi.org/10.1007/s11431-018-9288-8
State	Published - 1 Jun 2019
Externally published	Yes

Keywords

angular scanning deflectors
ground calibration
low-energy ion spectrometer
simulation
three-dimensional measurement
top-hat electrostatic analyzer

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10.1007/s11431-018-9288-8

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Hu, R. X., Shan, X., Yuan, G. Y., Wang, S. W., Zhang, W. H., Qi, W., Cao, Z., Li, Y. R., Chen, M. M., Yang, X. P., Wang, B., Shao, S. P., Li, F., Zhong, X. Q., Fan, D., Hao, X. J., Feng, C. Q., Su, Z. P., Shen, C. L., ... Wang, Y. M. (2019). A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft. Science China Technological Sciences, 62(6), 1015-1027. https://doi.org/10.1007/s11431-018-9288-8

@article{54f6bfb9b49b46299b7f2aa964fce169,

title = "A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft",

abstract = "A low-energy ion spectrometer (LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular- and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90° (–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.",

keywords = "angular scanning deflectors, ground calibration, low-energy ion spectrometer, simulation, three-dimensional measurement, top-hat electrostatic analyzer",

author = "Hu, \{Ren Xiang\} and Xu Shan and Yuan, \{Guang Yuan\} and Wang, \{Shu Wen\} and Zhang, \{Wei Hang\} and Wei Qi and Zhe Cao and Li, \{Yi Ren\} and Chen, \{Man Ming\} and Yang, \{Xiao Ping\} and Bo Wang and Shao, \{Si Pei\} and Feng Li and Zhong, \{Xiao Qing\} and Dan Fan and Hao, \{Xin Jun\} and Feng, \{Chang Qing\} and Su, \{Zhen Peng\} and Shen, \{Cheng Long\} and Xin Li and Dai, \{Gu Yue\} and Qiu, \{Bing Lin\} and Pan, \{Zong Hao\} and Kai Liu and Xu, \{Chun Kai\} and Liu, \{Shu Bin\} and Qi An and Zhang, \{Tie Long\} and Wang, \{Yu Ming\}",

note = "Publisher Copyright: {\textcopyright} 2018, Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.",

year = "2019",

month = jun,

day = "1",

doi = "10.1007/s11431-018-9288-8",

language = "英语",

volume = "62",

pages = "1015--1027",

journal = "Science China Technological Sciences",

issn = "1674-7321",

publisher = "Science China Press ",

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Hu, RX, Shan, X, Yuan, GY, Wang, SW, Zhang, WH, Qi, W, Cao, Z, Li, YR, Chen, MM, Yang, XP, Wang, B, Shao, SP, Li, F, Zhong, XQ, Fan, D, Hao, XJ, Feng, CQ, Su, ZP, Shen, CL, Li, X, Dai, GY, Qiu, BL, Pan, ZH, Liu, K, Xu, CK, Liu, SB, An, Q, Zhang, TL & Wang, YM 2019, 'A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft', Science China Technological Sciences, vol. 62, no. 6, pp. 1015-1027. https://doi.org/10.1007/s11431-018-9288-8

TY - JOUR

T1 - A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft

AU - Hu, Ren Xiang

AU - Shan, Xu

AU - Yuan, Guang Yuan

AU - Wang, Shu Wen

AU - Zhang, Wei Hang

AU - Qi, Wei

AU - Cao, Zhe

AU - Li, Yi Ren

AU - Chen, Man Ming

AU - Yang, Xiao Ping

AU - Wang, Bo

AU - Shao, Si Pei

AU - Li, Feng

AU - Zhong, Xiao Qing

AU - Fan, Dan

AU - Hao, Xin Jun

AU - Feng, Chang Qing

AU - Su, Zhen Peng

AU - Shen, Cheng Long

AU - Li, Xin

AU - Dai, Gu Yue

AU - Qiu, Bing Lin

AU - Pan, Zong Hao

AU - Liu, Kai

AU - Xu, Chun Kai

AU - Liu, Shu Bin

AU - An, Qi

AU - Zhang, Tie Long

AU - Wang, Yu Ming

PY - 2019/6/1

Y1 - 2019/6/1

N2 - A low-energy ion spectrometer (LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular- and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90° (–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.

AB - A low-energy ion spectrometer (LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular- and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90° (–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.

KW - angular scanning deflectors

KW - ground calibration

KW - low-energy ion spectrometer

KW - simulation

KW - three-dimensional measurement

KW - top-hat electrostatic analyzer

UR - https://www.scopus.com/pages/publications/85055677108

U2 - 10.1007/s11431-018-9288-8

DO - 10.1007/s11431-018-9288-8

M3 - 文章

AN - SCOPUS:85055677108

SN - 1674-7321

VL - 62

SP - 1015

EP - 1027

JO - Science China Technological Sciences

JF - Science China Technological Sciences

IS - 6

ER -

A low-energy ion spectrometer with half-space entrance for three-axis stabilized spacecraft

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Keywords

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