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The International Real-time Magnetic Observatory Network (INTERMAGNET) is a world-wide consortium of institutes operating ground-based magnetometers recording the absolute level of the Earth's time-varying magnetic field, [2] [3] [4] to an agreed set of standards.
Magnetic Data Acquisition System (abbr. MAGDAS) is a system of 50 realtime magnetometers that are being deployed by Kyushu Sangyo University of Fukuoka, Japan, as part of Japan's leading contribution to International Heliophysical Year of the United Nations.
In general, ICEMAG data would have combined synergistically with other data sets to improve knowledge of interior properties and exosphere activity. The instrument was put under review in the summer of 2018 due to out of control costs. By March 6, 2019, the instrument was cancelled in favor of finding a more affordable, less complex replacement.
Magnetometer (MAG) is an instrument suite on the Juno orbiter for planet Jupiter. [1] The MAG instrument includes both the Fluxgate Magnetometer (FGM) and Advanced Stellar Compass (ASC) instruments. [1] There two sets of MAG instrument suites, and they are both positioned on the far end of three solar panel array booms.
A magnetograph is a magnetometer that continuously records data over time. This data is typically represented in magnetograms. [16] Magnetometers can also be classified as "AC" if they measure fields that vary relatively rapidly in time (>100 Hz), and "DC" if they measure fields that vary only slowly (quasi-static) or are static.
Schematic of Earth's magnetosphere. Canadian Geospace Monitoring (CGSM) is a Canadian space science program that was initiated in 2005. CGSM is funded primarily by the Canadian Space Agency, and consists of networks of imagers, meridian scanning photometers, riometers, magnetometers, digital ionosondes, and High Frequency SuperDARN radars.
There are three science experiments onboard each identical spacecraft: EMAG, EESA, and ELP. EMAG is a magnetometer that will measure DC magnetic fields up to 1000 nT, mounted at the end of the boom to reduce magnetic noise from the spacecraft.
The lab is supported by the National Science Foundation and the state of Florida, and works in collaboration with private industry. The facility also includes the DC Magnet building and the Nuclear Magnetic Resonance building. The lab holds several world records for the world's strongest magnets, including highest magnetic field of 45.5 Tesla. [3]