...源强度和输出讯号大小成良好的正比关系,物体资讯不致损失,降低信号补偿处理成本; 高光子转换效率(High Quantum Efficiency ):很微弱的入射光照射都能被记录下来,若配合影像增强管及投光器,即使在暗夜远处的景物仍然还可以侦测得到; 5.
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...输出讯号巨细成杰出的正比瓜葛,物体资讯不致损掉,减低旌旗灯号赔偿措置惩罚成本; 高光量子转换效率(High Quantum Efficiency ):很微弱的入射采光射都能被记载下来,若共同影像加强管及投光器,纵然在暗夜远方的景物仍然还可以侦测获患上; 5.
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Development of photodetectors operating at 1.3-1.6μm wavelength, with high response speed, high quantum efficiency and low dark current, are not only the need for optical communication, but also the need for silicon-based optoelectronic integration.
制备响应波长在1.3和1.55μm,并具有高响应速度、高量子效率和低暗电流的高性能光电探测器,不仅是光通信技术发展的需要,也是实现硅基光电集成的需要。
参考来源 - Si基Ge MSM光电探测器的研制·2,447,543篇论文数据,部分数据来源于NoteExpress
Problems in the experiment and the method of obtaining high quantum efficiency are discussed.
文中讨论了实验中存在的问题和提高量子效率的方法。
Electron multiplying CCD is the novel imager that has ultra-low readout noise and high quantum efficiency.
电子倍增CCD是超低读出噪声和高量子效率的新型器件。
This type of devices are required to have high-speed, high quantum efficiency and ultra-narrow spectral linewidth simultaneously.
这类器件需要同时具备高速、高量子效率、超窄光谱响应线宽的性能。
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