金阴极的选择性光电效应

提出了一种测量金阴极的紫外光谱响应特性的方法.利用微通道板(microchannel plate,简称MCP)对电子的高增益特性,通过直接测量金阴极MCP探测器输出电流表征金阴极的紫外光响应.测量金阴极MCP探测器在200—340 nm波段的光谱响应,得到金阴极的谱响应特性:金作为逸出功较大的金属,也具有碱金属才有的选择性光电效应. 其选择峰值位于5.72 eV处,通过理论验证了该峰值的位置.     

MCP参数对微光像增强器分辨力影响研究

为了全面分析微通道板(MCP)参数对微光像增强器分辨力的影响,利用电子散射理论分析了MCP输出电子横向散射和MCP非开口面的电子散射情况,得到了MCP通道间距、输出电极结构和开口面积比等参数对微光像增强器分辨力的影响.分析结果指出:通过减小通道间距、采用MCP输出面镀多层电极或增加MCP输出端电极深度实现减小MCP输出电子横向扩散、增加开口面积比等,提高整个微光像增强器的分辨力.试验证明该方法有助于提高微光像增强器分辨力.     

低噪声、高增益微通道板的研制

降低微通道板噪声和增加其电子增益是改善微光像增强器信噪比、视场清晰度和亮度增益最好的技术途经之一。采用具有高而且稳定的二次电子发射系数的皮料玻璃和与皮料玻璃的热物理性能相匹配且化学腐蚀速率比皮料大4个数量级的芯料玻璃以及与两者在一切工艺过程相匹配的实体边玻璃，通过优化实体边实芯工艺制作出的高性能微通道板，其暗电流密度小于5×10-13A/cm2，固定图案噪声和闪烁噪声明显降低；在真空系统中，经40μAh电子清刷后，电子增益（800V）大于500。制管实验表明：这种微通道板达到了预期效果。     

微槽结构和工质对槽内流动沸腾的影响

本文报道实验测试甲醇等低沸点工质在微槽内流动沸腾特性的结果，并对所呈现的起始沸腾区有明显壁温回落等现象作出分析，从而在一定程度上揭示出微型槽道和工质本身特性对流动沸腾特性的影响。     

弯曲微小通道流阻特性的数值模拟

用经典的N-S方程对流体在矩形截面、弯曲的微小通道中的流动特性进行了数值研究,发现计算结果与试验结 果存在较大的差异。在对流体流动特性分析的基础上引入了粗糙粘度模型来对经典的N-S方程进行修正,计算结果表明 用粗糙粘度模型计算的结果与试验值吻合较好。     

Symmetric mode instability of the slipflow model for flows in a microchannel with a vanishing Reynolds number

The slipflow model is usually used to study microflows when the Knudsen number lies between 0.01 and 0.1. The instability due to microscale effect seems to have never been studied before. In this paper we present preliminary results for the instability (not physical instability) of this model when applied to microchannel flow with a vanishing Reynolds number. The present paper is restricted to symmetrical mode. Both first-order and second-order slip boundary conditions will be considered. The project supported by the National Natural Science Foundation of China (10025210) and Tsinghua Project for Basic Research (2002)     

Inertial separation in a contraction-expansion array microchannel

We report a contraction-expansion array (CEA) microchannel that allows inertial size separation by a force balance between inertial lift and Dean drag forces in fluid regimes in which inertial fluid effects become significant. An abrupt change of the cross-sectional area of the channel curves fluid streams and produces a similar effect compared to Dean flows in a curved microchannel of constant cross-section, thereby inducing Dean drag forces acting on particles. In addition, the particles are influenced by inertial lift forces throughout the contraction regions. These two forces act in opposite directions each other throughout the CEA microchannel, and their force balancing determines whether the particles cross the channel, following Dean flows. Here we describe the physics and design of the CEA microfluidic device, and demonstrate complete separation of microparticles (polystyrene beads of 4 and 10 μm in diameter) and efficient exchange of the carrier medium while retaining 10 μm beads.     

Casting mold patterning for lateral capillary force migration on PDMS microchannel

The casting molds including various shapes within axial and lateral resolution (110 μm and 5 μm) could be precisely fabricated and were suitable for the fabrication of PDMS microchannel possessing the larger inner volume for the purpose of the rapid capillary force migration. The tight bonding between PDMS mold and SiO₂/Si surface not only was governed by the flexibility and the degree of tilted angle (TA) of PDMS microchannel which shows the minimum value at the 0.2 weight ratio (W_r) of curing agent but also efficiently generates the capillary migration.     

微通道板离子壁垒膜粒子阻透特性的蒙特卡罗模拟

在三代微光像管中,微通道板(MCP)输入面上覆盖一层超薄离子壁垒膜(IBF),目的是保护光电阴极,延长像管使用寿命.为了深入研究离子壁垒膜的特性,本文对Al2O3和SiO2两种离子壁垒膜的粒子阻透能力进行了蒙特卡罗模拟,结果表明:5 nm厚Al2O3和SiO2离子壁垒膜的死电压分别为230 ～240 V和220～230...     

T型微通道反应器内气液两相流动机制及影响因素

基于液滴或气泡的多相微流控是近年来微流控技术中快速发展的重要分支之一.本文利用高速显微摄影技术和数字图像处理技术对T型微通道反应器内气液两相流动机制及影响因素进行实验研究.实验采用添加表面活性剂的海藻酸钠水溶液作为液相,空气作为气相.研究T型微通道反应器内气液两相流型的转变过程,并根据微通道内气泡的生成频率和生成气泡的长径比对气泡流进行分类.研究发现当前的进料方式下,可以观测到气泡流和分层流2种流型,且依据气泡生成频率和微通道内气泡的长径比可将气泡流划分为分散气泡流、短弹状气泡流和长弹状气泡流3种类型,并基于受力分析确定3种气泡流的形成机制分别为剪切机制、剪切-挤压机制和挤压机制.考察不同液相黏度和表面张力系数对不同类型气泡流范围的影响规律.结果表明:液相黏度相较于表面张力系数而言,对气泡流生成范围影响更大.给出不同类型气泡流流型转变条件的无量纲关系式,实现微通道生成微气泡过程的可控操作.