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首页> 外文会议>IEEE National Aerospace and Electronics Conference >A wavelet de-noising signal processing method for overall noise-to-signal (NSR) profile extraction, characterization and comparison of 3??m-5??m MWIR strained-layer super-lattice (SLS) photo-detectors enhanced with microsphere lenses of different material structures and sizes
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A wavelet de-noising signal processing method for overall noise-to-signal (NSR) profile extraction, characterization and comparison of 3??m-5??m MWIR strained-layer super-lattice (SLS) photo-detectors enhanced with microsphere lenses of different material structures and sizes

机译:小波去噪信号处理方法用于微球增强的3 ?? m-5 ?? m MWIR应变层超晶格(SLS)光电探测器的总噪声对信号(NSR)轮廓提取,表征和比较不同材料结构和尺寸的镜片

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MWIR detectors have received a lot of attention due to their importance and high viability in many civilian and military applications, such as target identification, bio-imaging, medical field, and defense. One crucial component in achieving high-sensitivity performance in MWIR photo-detectors, is obtaining reasonable MWIR high detector signal-to-noise ratio (SNR) profiles. The classical IR photo-detector SNR model is limited as it does not reflect modeling of all physical factors, including detector environment sources causing undesired noise. In general, there is a need for better empirical methods to accurately estimate and extract the detector integrated-sources of imperfection noise. In this paper we present and discuss a non-parametric wavelet-based de-noising signal processing method for accurate extraction, characterization and comparison of the overall combined effects of detector sources of noise, including spectral fabrication imperfection noise, electronics testing equipment imperfection noise, and microsphere lens material fabrication/alignment imperfection noise, among others, of eleven (11) 3??m-5??m MWIR InAS/GaSb strained-layer Superlattice (SLS) single photodetectors enhanced with microsphere-lenses of different material structures/sizes. With the collected spectral FTIR data considered and the detector wavelet-denoising-based extracted NSR, the results show that there is a decrease (improvement) of about 71 % (difference between lens-enhanced and no-lens-enhanced NSR values divided by no-lens-enhanced NSR) in the noise-to-signal ratio (NSR) of the SLS photodetector of size 40??m and enhanced with a microsphere-lens sapphire of size 300??m in the targeted 3??m???5??m MWIR wavelength-band considered.
机译:由于他们在许多民用和军事应用中,MWIR探测器因其在许多民用和军事应用中的重要性和高可行力而受到了很多关注,例如目标识别,生物成像,医疗领域和防御。在MWIR照片探测器中实现高灵敏度性能的一个重要组成部分是获得合理的MWIR高检测器信噪比(SNR)轮廓。经典的IR照片检测器SNR模型受到限制,因为它不反映所有物理因素的建模,包括探测器环境源导致不期望的噪音。通常,需要更好的经验方法来准确地估计和提取缺陷噪声的探测器集成源。在本文中,我们展示并讨论了用于准确提取,表征和比较探测器噪声源的整体组合效果的非参数的小波的去噪信号处理方法,包括光谱制造缺陷噪声,电子测试设备缺乏噪声,和微球镜片材料制造/对准缺陷噪声,其中11(11)3 ?? M-5 ?? M MWIR Inas / Gasb应变层超晶格(SLS)单个光电探测器通过不同材料结构的微球体透镜增强大小。通过考虑的收集的光谱FTIR数据和基于检测器小波的提取的NSR,结果表明,减少(改善)约71%(镜头增强和无透镜增强的NSR值之间的差异除以NO - 增强的NSR)在SLS光电探测器的噪声到信号比(NSR)的尺寸40Ω·m,并通过微球晶状体蓝宝石的尺寸为300Ωappire,在靶向3 ?? m ?? ?5 ?? MWIR被考虑的波长带。

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