Mars Orbiter magnetometer of China’s First Mars Mission Tianwen-1

Kai Liu; Xin Jun Hao; Yi Ren Li; Tie Long Zhang; Zong Hao Pan; Man Ming Chen; Xiao Wen Hu; Xin Li; Cheng Long Shen; Yu Ming Wang

doi:10.26464/epp2020058

Mars Orbiter magnetometer of China’s First Mars Mission Tianwen-1

Kai Liu
, Xin Jun Hao
, Yi Ren Li
, Tie Long Zhang^*
, Zong Hao Pan
, Man Ming Chen
, Xiao Wen Hu
, Xin Li
, Cheng Long Shen
, Yu Ming Wang^*

^*Corresponding author for this work

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

59 Scopus citations

Abstract

As one of the seven scientific payloads on board the Tianwen-1 orbiter, the Mars Orbiter Magnetometer (MOMAG) will measure the magnetic fields of and surrounding Mars to study its space environment and the interaction with the solar wind. The instrument consists of two identical triaxial fluxgate magnetometer sensors, mounted on a 3.19 meter-long boom with a seperation of about 90 cm. The dual-magnetometers configuration will help eliminate the magnetic field interference generated by the spacecraft platform and payloads. The sensors are controlled by an electric box mounted inside the orbiter. Each magnetometer measures the ambient vector magnetic field over a wide dynamic range (to 10,000 nT per axis) with a resolution of 1.19 pT. Both magnetometers sample the ambient magnetic field at an intrinsic frequency of 128 Hz, but will operate in a model with alternating frequency between 1 and 32 Hz to meet telemetry allocations.

Original language	English
Pages (from-to)	384-389
Number of pages	6
Journal	Earth and Planetary Physics
Volume	4
Issue number	4
DOIs	https://doi.org/10.26464/epp2020058
State	Published - Jul 2020
Externally published	Yes

Keywords

Mars
Tianwen-1
magnetic field
magnetometer
spaceflight instrumentation

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10.26464/epp2020058

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@article{e519e464d5b84024b449f9c2a7a8d5cb,

title = "Mars Orbiter magnetometer of China{\textquoteright}s First Mars Mission Tianwen-1",

abstract = "As one of the seven scientific payloads on board the Tianwen-1 orbiter, the Mars Orbiter Magnetometer (MOMAG) will measure the magnetic fields of and surrounding Mars to study its space environment and the interaction with the solar wind. The instrument consists of two identical triaxial fluxgate magnetometer sensors, mounted on a 3.19 meter-long boom with a seperation of about 90 cm. The dual-magnetometers configuration will help eliminate the magnetic field interference generated by the spacecraft platform and payloads. The sensors are controlled by an electric box mounted inside the orbiter. Each magnetometer measures the ambient vector magnetic field over a wide dynamic range (to 10,000 nT per axis) with a resolution of 1.19 pT. Both magnetometers sample the ambient magnetic field at an intrinsic frequency of 128 Hz, but will operate in a model with alternating frequency between 1 and 32 Hz to meet telemetry allocations.",

keywords = "Mars, Tianwen-1, magnetic field, magnetometer, spaceflight instrumentation",

author = "Kai Liu and Hao, \{Xin Jun\} and Li, \{Yi Ren\} and Zhang, \{Tie Long\} and Pan, \{Zong Hao\} and Chen, \{Man Ming\} and Hu, \{Xiao Wen\} and Xin Li and Shen, \{Cheng Long\} and Wang, \{Yu Ming\}",

note = "Publisher Copyright: {\textcopyright} 2020 by Earth and Planetary Physics.",

year = "2020",

month = jul,

doi = "10.26464/epp2020058",

language = "英语",

volume = "4",

pages = "384--389",

journal = "Earth and Planetary Physics",

issn = "2096-3955",

publisher = "Science Press ",

number = "4",

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TY - JOUR

T1 - Mars Orbiter magnetometer of China’s First Mars Mission Tianwen-1

AU - Liu, Kai

AU - Hao, Xin Jun

AU - Li, Yi Ren

AU - Zhang, Tie Long

AU - Pan, Zong Hao

AU - Chen, Man Ming

AU - Hu, Xiao Wen

AU - Li, Xin

AU - Shen, Cheng Long

AU - Wang, Yu Ming

PY - 2020/7

Y1 - 2020/7

N2 - As one of the seven scientific payloads on board the Tianwen-1 orbiter, the Mars Orbiter Magnetometer (MOMAG) will measure the magnetic fields of and surrounding Mars to study its space environment and the interaction with the solar wind. The instrument consists of two identical triaxial fluxgate magnetometer sensors, mounted on a 3.19 meter-long boom with a seperation of about 90 cm. The dual-magnetometers configuration will help eliminate the magnetic field interference generated by the spacecraft platform and payloads. The sensors are controlled by an electric box mounted inside the orbiter. Each magnetometer measures the ambient vector magnetic field over a wide dynamic range (to 10,000 nT per axis) with a resolution of 1.19 pT. Both magnetometers sample the ambient magnetic field at an intrinsic frequency of 128 Hz, but will operate in a model with alternating frequency between 1 and 32 Hz to meet telemetry allocations.

AB - As one of the seven scientific payloads on board the Tianwen-1 orbiter, the Mars Orbiter Magnetometer (MOMAG) will measure the magnetic fields of and surrounding Mars to study its space environment and the interaction with the solar wind. The instrument consists of two identical triaxial fluxgate magnetometer sensors, mounted on a 3.19 meter-long boom with a seperation of about 90 cm. The dual-magnetometers configuration will help eliminate the magnetic field interference generated by the spacecraft platform and payloads. The sensors are controlled by an electric box mounted inside the orbiter. Each magnetometer measures the ambient vector magnetic field over a wide dynamic range (to 10,000 nT per axis) with a resolution of 1.19 pT. Both magnetometers sample the ambient magnetic field at an intrinsic frequency of 128 Hz, but will operate in a model with alternating frequency between 1 and 32 Hz to meet telemetry allocations.

KW - Mars

KW - Tianwen-1

KW - magnetic field

KW - magnetometer

KW - spaceflight instrumentation

UR - https://www.scopus.com/pages/publications/85101100797

U2 - 10.26464/epp2020058

DO - 10.26464/epp2020058

M3 - 快报

AN - SCOPUS:85101100797

SN - 2096-3955

VL - 4

SP - 384

EP - 389

JO - Earth and Planetary Physics

JF - Earth and Planetary Physics

IS - 4

ER -

Mars Orbiter magnetometer of China’s First Mars Mission Tianwen-1

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Keywords

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