Development of compound semiconductors for planetary and astrophysics space missions

机译：生产平行和天体物理空间任务复合半导体的发展

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We dicuss the observational requiremetns for future X-ray planetary and astrophysics missions and present preliminary laboratory resutls from our compound semiconductor program. The detectors used in the tests were simple monolithic devices, which are used in conjunction with a detailed material science and technology development program intended to produce near Fano limited, pixilated hard X-ray detectors. In practical terms, this means producing active arryas, comprised of over 10~3 pixels each being of order 100 microns in size, with spectral resolving powers, E/ DELTA E>20 at 10 keV and high quantum efficiencies over the energy range 1 to 200 keV. Four materials are currently under study -GaAs, HgI_2, TlBr and CdZnTe. In the cases of GaAs and CdZnTe, the detector energy resolution functions are approaching the Fano limit.

机译：我们对未来X射线行星和天体物理任务的观察要求以及来自我们的复合半导体计划的初步实验室重新推出。测试中使用的探测器是简单的单片装置，其与旨在在Fano Limited，像素硬X射线探测器附近产生的详细的材料科学和技术开发计划结合使用。实际上，这意味着产生活性arryas，包括超过10〜3个像素的尺寸超过10〜3个像素，具有频谱解析功率，E / DELTA E> 20在10keV和能量范围内的高量子效率为1至200 kev。目前研究了四种材料 - GAAS，HGI_2，TLBR和CDZNTE。在GaAs和Cdznte的情况下，检测器能量分辨率函数正在接近FANO限制。

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《Conference on x-ray optics, instruments, and missions》|2000年||共12页
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Alan Owens; M.Bavdaz; H.Andersson; G.Bertuccio; T.Gagliardi; V.Gostillo; I.Lisjutin; S.Nenonen; A.Peacock; H.Sipila; L.Troeger; S.Zatoloka; SPIE The International Society for Optical Engineering;
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中图分类 TN153;
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Compound semiconductors, CdZnTe, GaAs. HgI_2, TlBr, X-ray astronomy;

机译：复合半导体;Cdznte;GaAs。 HGI_2;TLBR;X射线天文学;

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机译：开发用于行星和天体物理学太空飞行任务的化合物半导体

Development of compound semiconductors for planetary and astrophysics space missions

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