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In-orbit calibration of the lunar magnetometer onboard SELENE (KAGUYA)
The high-sensitivity fluxgate Lunar MAGnetometer (LMAG) is mounted on SELENE (KAGUYA) to investigate the near-surface electromagnetic environment and the evolution of the Moon through magnetic field observation. To avoid possible electromagnetic interferences, a triaxial fluxgate sensor (MGF-S) is i...
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| Published in: | Earth, planets, and space planets, and space, 2009-01, Vol.61 (11), p.1269-1274 |
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| container_end_page | 1274 |
| container_issue | 11 |
| container_start_page | 1269 |
| container_title | Earth, planets, and space |
| container_volume | 61 |
| creator | Takahashi, Futoshi Shimizu, Hisayoshi Matsushima, Masaki Shibuya, Hidetoshi Matsuoka, Ayako Nakazawa, Satoru Iijima, Yuichi Otake, Hisashi Tsunakawa, Hideo |
| description | The high-sensitivity fluxgate Lunar MAGnetometer (LMAG) is mounted on SELENE (KAGUYA) to investigate the near-surface electromagnetic environment and the evolution of the Moon through magnetic field observation. To avoid possible electromagnetic interferences, a triaxial fluxgate sensor (MGF-S) is installed at the far end of a 12-m-long mast. It is critical for the accurate observation to monitor MGF-S alignment in orbit, and thus we have calibrated the sensor alignment by measuring the known magnetic fields generated by the sensor alignment monitor coil (SAM-C) wound onto the mast canister. In-orbit calibration of the MGF-S alignment was performed twice each revolution during the initial check-out phase of the satellite. It is concluded that there is no systematic difference in the sensor alignment between the day-side and night-side. Applying a new technique based on the Davis-Smith method to the observed magnetic field data when KAGUYA was exposed to the solar wind, a zero offset of each axis was quickly and stably determined every month. As a result, LMAG has been calibrated with an accuracy that is sufficient for detection of the lunar magnetic anomaly at an altitude of 100 km and for high-resolution electron reflectometry. |
| doi_str_mv | 10.1186/BF03352979 |
| format | article |
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To avoid possible electromagnetic interferences, a triaxial fluxgate sensor (MGF-S) is installed at the far end of a 12-m-long mast. It is critical for the accurate observation to monitor MGF-S alignment in orbit, and thus we have calibrated the sensor alignment by measuring the known magnetic fields generated by the sensor alignment monitor coil (SAM-C) wound onto the mast canister. In-orbit calibration of the MGF-S alignment was performed twice each revolution during the initial check-out phase of the satellite. It is concluded that there is no systematic difference in the sensor alignment between the day-side and night-side. Applying a new technique based on the Davis-Smith method to the observed magnetic field data when KAGUYA was exposed to the solar wind, a zero offset of each axis was quickly and stably determined every month. 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| issn | 1343-8832 1880-5981 |
| language | eng |
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| source | Springer Nature - SpringerLink Journals - Fully Open Access |
| subjects | Cosmochemistry. Extraterrestrial geology Earth and Environmental Science Earth Sciences Earth, ocean, space Exact sciences and technology Geology Geophysics/Geodesy |
| title | In-orbit calibration of the lunar magnetometer onboard SELENE (KAGUYA) |
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