1) image photon counting system
成像光子计数系统
2) microscopy photon count imaging system
显微光子计数成像系统
1.
In order to apply deeply microscopy photon count imaging system to microcosmic field, noise is the first problem to be solved.
显微光子计数成像系统是极其灵敏的弱光探测成像系统,为使其应用进一步深入微观领域,噪声问题是首先要解决的难题。
3) photon counting imaging
光子计数成像
1.
In the area of low light level imaging, image intensification technique of the first, second and third generation, vacuum and solid state imaging pickup, as well as photon counting imaging systems have successively made their appearance.
在微光成像技术方面 ,发展了一代、二代和三代直视像增强技术 ,真空和固体微光摄像技术及光子计数成像技术 ;在热成像技术方面 ,发展了致冷型一代、二代和三代热成像技术和非致冷型列阵热成像技术 。
2.
The Ge thin films applied in photon counting imaging system based on Ge induction readout were fabricated by electron beam evaporation.
利用电子束真空蒸镀方法制作了Ge薄膜,用作感应读出方式光子计数成像系统的电荷感应层,研究了石英玻璃衬底和陶瓷衬底上Ge薄膜的结构特征、表面形态以及各种工艺参数对薄膜电阻的影响。
4) photon counting image
光子计数成像
1.
A photon counting image acquisition system consisting of photon counting imaging head, a high frame frequency CCD camera, an image processor and computer has been developed for the two dimensional analysis of very low light level phenomena.
给出了一种用光子成像头、高帧频CCD摄像机、图像采集系统和计算机组成的光子计数成像探测系统。
2.
A photon counting image model based on avalanche photodiode(APD)arrays response characters and Poisson point process of photons was developed.
简要介绍了雪崩光电二极管(APD)阵列光子计数成像原理,建立了基于泊松点过程的APD阵列的单光子响应模型。
5) single-photon counting imaging
单光子计数成像
1.
Simulated images were obtained successfully by using the single-photon counting imaging technique in the laboratory.
该探测器采用了楔条形阳极(WSA)、高增益V型级联微通道板组件、低噪声电子读出系统等先进技术,利用单光子计数成像技术在实验室成功获得了模拟图像。
6) image photon counting system
成象光子计数系统
补充资料:单光子计数
分子式:
CAS号:
性质:亦称单光子计数。此技术对序列单个光子脉冲的计数是通过光敏层(光阴极)对光子发射事件的记录再经过“打拿”极阵列(光放大器)的放大作用而实现的。它主要用于:(1)实现对低强度辐射的灵敏测定;(2)对发射衰减现象的记录。
CAS号:
性质:亦称单光子计数。此技术对序列单个光子脉冲的计数是通过光敏层(光阴极)对光子发射事件的记录再经过“打拿”极阵列(光放大器)的放大作用而实现的。它主要用于:(1)实现对低强度辐射的灵敏测定;(2)对发射衰减现象的记录。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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