利用紫外光电法测试了硅微通道板的增益和增益均匀性。
The gain and gain uniformity of samples were tested with UV optoelectronic system.
本文给出了微通道板(MCP)输出电极的最佳深度表达式。
The expression for the optimum output electrode depth of MCP is given.
它由光平面电子源、XY扫描控制板、微通道板及荧光屏组成。
It is consisted of a photo emission source, a XY scanning controllable board, a micro channel plate and a phosphor screen.
介绍了基于微通道板和楔条形阳极的紫外单光子成像系统的组成和工作原理。
The structure and working principle of an ultraviolet single photon imaging system based on the microchannel plates and the wedge and strip anode are introduced.
利用简单的一维模型,计算出X射线经微通道板后的反射效率等一系列聚焦参数。
Using simple one-dimensional model, the parameters of the focusing properties such as the reflection efficiency can be calculated.
本文报告了以多孔玻璃为基材的微通道板的制备及其二次电子发射特性的测量结果。
The paper reports the fabrication of the MCP based on the porous glass (ceramics) and the measurement of secondary electron emission characteristic of the MCP.
叙述预测微通道板工作寿命试验过程,指出微通道板工作寿命曲线服从负指数分布。
A test for prediction of MCP life-time is described and it is pointed that the life-time curve of MCP depends on negative exponent distribution.
介绍了半导体玻璃微通道板的主要性能,并与传统铅硅酸盐玻璃的相关性能进行了比较。
The properties of the semiconductor glass microchannel plates are described and compared with traditional glass MCPs.
本文利用射频磁控溅射方法,在微通道板输入面上成功地制备出二氧化硅防离子反馈膜。
Silicon oxide ion barrier film was successfully fabricated on the input-face of microchannel plate by magnetron sputtering method.
介绍了半导体玻璃微通道板的主要性能,并与传统铅硅酸盐玻璃的相关性能进行了比较。
The properties of the semiconductor glass microchannel plates (MCPs) are described and compared with traditional glass MCPs.
介绍了基于微通道板的二维位置灵敏探测器的基本原理及其关键部分电阻阳极面板和数据读出系统的设计。
The fundamental principle of a two-dimensional position-sensitive detector based on microchannel plate is presented. The resistive anode plate and data read-out system of the detector were designed.
在与各种探测器比较的基础上,我们设计了微通道板探测器,它是目前用于电子束曝光机的最先进的探测器。
On basis of comparison with other types of detectors, we designed microchannel plate detector which is the most advanced detector for EBM up to now.
微通道板象增强器与控制其快门作用的选通脉冲发生器相结合,便构成具有高的光增益和快速响应的超高速相机。
A microchannel plate image intensifier combining with a gating pulse generator constitutes the simplest image converter camera with high gain and fast response.
本文根据作者已有的实验数据和在前人工作的基础上,分析了导致微通道板经电子轰击后增益大幅度下降的原因。
From the experimental results performed by authors and other workers, the causes of the decay of MCP gain after bombarding by electrons have been analysed.
导出微通道板动态范围的表达式,给出提高动态范围的几种可行途径,简要介绍一种高动态范围微通道板的主要特性。
Tie expression is derived for the dynamic range of MCP, Several kinds of practicable approaches for enlarging dynamic range and the main properties of a MCP with wide dynamic range are introduced.
微通道板离子阻挡膜在第三代微光像增强器中起着重要作用,本文在分析离子阻挡膜形成原理的基础上,给出了实验方案。
The ion barrier film at the input of the microchannel plate (MCP) plays an important role in improving the lifetime of the third generation image tube.
给出了三代微光像管中微通道板离子壁垒膜对入射正离子阻止作用的描述,引进了核阻止本领、电子阻止本领和平均射程的概念。
The concepts of nuclear stopping power, electronic stopping power and average range were also introduced, the micrographs of unfilmed MCP and MCPs filmed with different thicknesses were shown.
介绍了一种以微通道板和电阻阳极所构成的位置灵敏探测器为基础、用于兰州重离子加速器束流诊断的新型剩余气体电离束流剖面探测系统。
The detecting system is based on the residual gas ionization principle and consisted of electrostatic collecting plates, micro-channel plates and a resistive anode.
对微通道冷板的制造工艺技术作了简要阐述。
This paper introduces the processing technology of microchannel cold-plate briefly.
对微通道冷板的制造工艺技术作了简要阐述。
This paper introduces the processing technology of microchannel cold-plate briefly.
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