Design and performance study of the LEPD silicon tracker onboard the CSES satellite 被引量：2

Design and performance study of the LEPD silicon tracker onboard the CSES satellite

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摘要 The low energy particle detector （LEPD） is one of the main payloads onboard the China seismic electromagnetic satellite （CSES）. The detector is designed to ascertain space electrons （0.1–10 MeV） and protons （2–50 MeV）. It has the capability of identifying the electrons and protons, to measure the energy spectrum and the incident angle of the particles. The LEPD is made up of a silicon tracker system, a CsI （Tl） mini-calorimeter, an anti-coincidence system made by plastic scintillator, as well as electronics and a data acquisition system （DAQ）. The tracker is also a kind of E-E telescope; it consists of two layers of double-sided silicon strip detectors （DSSD）. The signals emerging from the silicon tracker can be read out by two pieces of application specific integrated circuit （ASIC）, which also can generate an event trigger for the LEPD. The functions of the DSSD system in the LEPD for charged particles were tested by 241Am @5.486 MeV α particles. The results show that the DSSD system works well, and has high performance to detect charged particles and measure the position of incident particles. The low energy particle detector （LEPD） is one of the main payloads onboard the China seismic electromagnetic satellite （CSES）. The detector is designed to ascertain space electrons （0.1–10 MeV） and protons （2–50 MeV）. It has the capability of identifying the electrons and protons, to measure the energy spectrum and the incident angle of the particles. The LEPD is made up of a silicon tracker system, a CsI （Tl） mini-calorimeter, an anti-coincidence system made by plastic scintillator, as well as electronics and a data acquisition system （DAQ）. The tracker is also a kind of E-E telescope; it consists of two layers of double-sided silicon strip detectors （DSSD）. The signals emerging from the silicon tracker can be read out by two pieces of application specific integrated circuit （ASIC）, which also can generate an event trigger for the LEPD. The functions of the DSSD system in the LEPD for charged particles were tested by 241Am @5.486 MeV α particles. The results show that the DSSD system works well, and has high performance to detect charged particles and measure the position of incident particles.

作者吴峰王焕玉赵小芸孟祥承徐岩冰王辉马宇蒨卢红王平石峰李新乔蒋文奇安振华于晓霞刘汉一

机构地区 Department of Modern Physics Key Laboratory of Particle Astrophysics (LPA)

出处《Chinese Physics C》 SCIE CAS CSCD 2013年第2期57-63,共7页 中国物理C（英文版）

基金 Supported by China 863 High Technology Development Program "Study on identification and Quantitative Retriveval of the Lunar Surface Composition" (2010AA122203)

关键词 silicon detector △E-E particles identification electrons detector protons detector position of incidentparticles silicon detector, △E-E, particles identification, electrons detector, protons detector, position of incidentparticles

分类号 TL815 [核科学技术—核技术及应用] V474 [航空宇航科学与技术—飞行器设计]

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