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引信用非制冷快响应长波红外敏感技术

Non-cooling Fast-response Long-wave Infrared Sensitive Technology for Fuze
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摘要 为了解决引信近场探测对非制冷快响应长波红外敏感技术的需求,开展光子型材料在长波红外敏感技术方面的应用研究。采用熔体外延技术生长出的铟砷锑厚膜单晶通过工艺制备,形成一种可在非制冷条件下截止波长延伸到11μm的光子型红外探测器。通过对器件的性能测试及末敏弹扫描平台的应用表明,该器件在响应波段和响应时间两方面可有效提升红外引信的探测能力。 To address the demand for non-cooling,fast-response long-wave infrared sensitive technology in the near-field detection of fuses,research was conducted on the application of photonic materials in long-wave infrared sensitive technology.Indium arsenic antimonide thick-film single crystals were grown by the melt epitaxy technique and processed to form a photonic infrared detector that could extend the cut-off wavelength to 11μm under non-cooling conditions.Performance testing of the device and its application on a terminal-sensitive projectile scanning platform indicated that the device could effectively enhance the detection capability of infrared fuses in both the response band and response time.
作者 马明 徐博 高玉竹 陈遵田 MA Ming;XU Bo;GAO Yuzhu;CHEN Zuntian(No.212 Institute of China Ordnance Industry Corporation,Xi'an 710065,China;Xi'an Morden Control Technology Research Institute,Xi'an 710065,China;College of Electronics and Information Engineering,Tongji University,Shanghai 201804,China)
机构地区 中国兵器工业集团第二一二研究所 西安现代控制技术研究所 同济大学微电子学院
出处 《探测与控制学报》 CSCD 北大核心 2024年第4期53-57,共5页 Journal of Detection & Control
关键词 红外引信 铟砷锑 熔体外延法 末敏弹 infrared fuze indium arsenic antimonide melt epitaxy method terminal sensitive projectile
分类号 TN215 [电子电信—物理电子学]
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探测与控制学报
2024年 第4期

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