红外成像器件
- 网络infrared imaging device
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文章对目前红外成像器件的发展进行了分析总结,并按照不同成像方式把成像器件分为扫描成像器件和凝视成像器件两类,对其优缺点进行评述比较。
Recent development of IR imaging detector is analysed and summarized . The advantages and disadvantages of two kinds imaging ways & scanning and staring are compared .
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随着红外成像器件的发展,红外成像技术目前已被广泛应用于侦察、监视和制导等军事领域,此外在飞机导航、公路智能交通系统等民用领域也有着广阔的应用前景。
With the rapid development of infrared technology , infrared video is widely used in military and civil affairs , such as reconnaissance , surveillance and weapon guidance .
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带温度补偿结构的高灵敏度光读出红外成像阵列器件设计
Design of high sensitivity optically readable infrared imaging array device with temperature compensation beams
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提出了一种具有“双材料梁-微镜一体化”特征结构的光读出红外成像阵列器件。
A novel optically readable infrared imaging array device with " bi-material beam micro-mirror integrated structure " pixels has been proposed .
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反射式光读出非致冷红外成像阵列器件研究光纤光栅阵列编解码器反射谱性能研究
Study on Uncooled Infrared Imaging Device with Reflecting Optically Readout ; The Spectral Analysis of the Fiber Grating Arrays Encoder / Decoder
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红外焦平面成像器件发展现状
Development state of IRFPA imaging device
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红外焦平面成像器件的重大应用
Important applications of IRFPA imaging devices
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红外焦平面成像器件的光谱响应率是天基红外遥感的基本物理指标。
The spectral responsivity of IRFPA imaging detector is a basic physical parameter for the space infrared remote sensing .
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因此,半导体远红外/THz上转换成像器件具有简单、成本低、响应波长可调等特点。
Therefore , the advantages of the semiconductor FIR / THz imaging devices are low-cost , simple , and wavelength-tunable .
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热电堆红外探测器是最早研究并实用化的热电型红外成像器件之一。
Thermopile IR detector is one of the first thermal IR imaging device that has been studied and applied .
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红外焦平面阵列探测器(IRFPA)是红外探测系统以及红外热成像器件的关键部件,被广泛地应用于军事领域和民用领域,具有很大的应用与发展前景。
Infrared Focal Plane Array ( IRFPA ) is a key part of the infrared testing system and thermal imaging device , being applied extensively in the military and civil field . It has huge developing and applying prospect .
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红外焦平面阵列器件是目前最先进也最常用的红外成像系统的探测器件,但是其固有的非均匀性严重影响了成像质量,所以非均匀性校正成为图像处理中的关键技术之一。
Infrared Focal Plane Array device is the most advanced and most commonly used infrared imaging system detector , but its inherent non-uniformity has seriously affected the imaging quality , so the non-uniformity correction becomes one of the key technologies in the imaging processing .
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由于远红外/THz探测成像在天体物理、红外物理和新材料探索等领域广泛的应用前景,这类半导体远红外/THz上转换成像器件具有潜在的应用价值。
Due to the wide applications of FIR / THz detection imaging in various areas , such as space astronomy 、 infrared physics 、 spectroscopy 、 new materials 、 and so on , the semiconductor FIR / THz upconversion imaging devices have potential application values .