A 50 pico-g resolution integrated test facility for high-precision inertial sensors

Abstract: High-precision inertial sensors are the key instruments for many applications. However, their performance is difficult to test on the ground due to the effect of seismic noise. To evaluate the complete performance of inertial sensors, the main test items include noise floor test, scale factor calibration, resolution test and so on. The accelerometers used in inertial navigation and precision measurement fields usually require direct resolution test. Depending on the application, the resolution of high-precisio… Show more

“…The detection of gravitational waves has heralded a new era in human observation of the universe [1,2]. Space inertial sensors are critical units for space-based gravitational wave detection, which can reflect the changes in the gravitational field [3,4]. However, galactic cosmic rays and solar energetic particles can penetrate spacecraft and accumulate charges on the test mass (TM) of the inertial sensor [5,6].…”

Using finite element simulation to evaluate charge measurement precision for space inertial sensors

“…The detection of gravitational waves has heralded a new era in human observation of the universe [1,2]. Space inertial sensors are critical units for space-based gravitational wave detection, which can reflect the changes in the gravitational field [3,4]. However, galactic cosmic rays and solar energetic particles can penetrate spacecraft and accumulate charges on the test mass (TM) of the inertial sensor [5,6].…”

Using finite element simulation to evaluate charge measurement precision for space inertial sensors