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                          Investigation of charge management using UV LED device with a torsion pendulum for TianQin

                          作者: 来源: 发布时间:2020年07月23日 11:06 点击次数:[]

                          Investigation of charge management using UV LED device with

                           a torsion pendulum for TianQin


                          Fangchao Yang, Yanzheng Bai*, Wei Hong, Honggang Li, Li Liu,

                          Timothy J Sumner , Quanfeng Yang, Yujie Zhao and Zebing Zhou*


                          TianQin is a Chinese space-based observatory concept with three drag-free spacecraft orbiting the earth to observe gravitational-waves in the millihertz range. Electrical charge is inevitably accumulating on its isolated test masses which are used as the mirrors for interferometers to measure gravity variation. Charge management system based on ultraviolet (UV) light is developed to reduce the charge-induced noises acting on the test mass in space gravitational experiments such as GP-B, LISA, LISA Pathfinder and TianQin mission. The UV LED is a new UV light source with some advantages relative to mercury lamps, such as smaller size, lighter weight, lower power consumption and higher efficiency. For these reasons, ground-based tests for the combination of UV LED and inertial sensor are essential. This paper presents the development of a charge management system based on a UV LED, its application to a torsion pendulum system with a TianQin-like test mass, and assesses the charge-management performance of the system. The experimental results indicate that the isolated test mass can be charged positively or negatively through UV illumination. It demonstrates that the charging and discharging rates can both reach higher than 105 e s-1, as well as spectral measurement of the pendulum charge resulting in a white noise level equivalent to &sim; 5 &times; 105 e Hz-1/2, satisfying the TianQin requirement.


                          期刊名:Classical and Quantum Gravity


                          期/卷:37 /11


                          页码:1-14


                          发表时间:2020年5月


                          DOI: 10.1088/1361-6382/ab8489

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