Studying the atomic gyroscope magnetic shield residual magnetization by comparing parametric resonance signals

Abstract: The paper presents an algorithm for measuring the residual magnetic field in the magnetic shield of a quantum rotation sensor, which is based on the analysis of cesium parametric resonance signal. The effect of the residual magnetic field in the magnetic shield of the passive shielding system of an atomic gyroscope on its performance is investigated. The form of cesium parametric resonance is analysed. The results of experimental verification of the algorithm are presented to confirm its effectiveness.

“…Numerous ultra-high sensitivity atomic sensors that use quantum effects to detect physical quantities, such as atomic magnetometer [ 1 , 2 ], atomic gyroscope [ 3 , 4 ], atomic clock [ 5 ], and superconducting quantum interferometer [ 6 , 7 ], are magnetic-field sensitive. The stability of the environmental magnetic field has a direct effect on the measurement performance of sensors.…”

A High-Performance Magnetic Shield with MnZn Ferrite and Mu-Metal Film Combination for Atomic Sensors

“…Numerous ultra-high sensitivity atomic sensors that use quantum effects to detect physical quantities, such as atomic magnetometer [ 1 , 2 ], atomic gyroscope [ 3 , 4 ], atomic clock [ 5 ], and superconducting quantum interferometer [ 6 , 7 ], are magnetic-field sensitive. The stability of the environmental magnetic field has a direct effect on the measurement performance of sensors.…”

A High-Performance Magnetic Shield with MnZn Ferrite and Mu-Metal Film Combination for Atomic Sensors