光学窗口

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光学窗口光学窗口
  1. 空间CCD相机光学窗口在轨热稳定性分析

    The Analysis of On orbit Thermal Stability for Optical Window of Space CCD camera

  2. LiF和Al2O3两种晶体在冲击波实验中常常被用作光学窗口材料。

    LiF and Al2O3 crystals are used optical window materials in shock wave experiments .

  3. 带光学窗口的ICF低温冷冻靶用低温恒温器

    A cryostat with optical windows designed for fabricating the ICF cryogenics target

  4. 根据原位研究SEI膜的需要,设计制作了带石英光学窗口的锂离子模拟电池。

    To meet the needs of in-situ study of SEI film , the lithium ion simulate battery with optical quartz window was designed and made .

  5. 随后介绍了大气层内的KKV关键技术问题,并重点分析讨论了光学窗口与气动光学、喷流干扰效应、复合力控制等技术研究内容。

    The window and aero optical technology , jet interaction , composition control technology of varied forces and so on , are emphatically discussed .

  6. YAG晶体在红外、可见、紫外波段均有很高的透过率,是用作光学窗口、基片的优秀材料,在多个领域已得到广泛应用,特别是在高温及高能辐射的应用场合。

    In virtue of the very high transmittance in the infrared , visible , ultraviolet band , the YAG crystal is an excellent material to serve as the optical window and the substrate and has been widely used in many fields , especially in the high-temperature and high-energy radiation applications .

  7. 近年来,CVD金刚石膜作为一种新型的功能材料,在金属切削加工,超高速计算机芯片、半导体和微波器件的散热元件,以及光学窗口等领域已得到初步应用,并显示出无与伦比的优越性。

    In recent years , as one kind of new function material , CVD diamond thick film has been used in many field such as cutting tool , cooling device of super-high speed computer CMOS chip , cooling device of semiconductor and microwave parts , and shown unique superiorities .

  8. 采用量子力学从头算和赝势平面波基组以及非局域广义梯度近似(PP-GGA)方法对两种光学窗口材料(单晶LiTaO3和蓝宝石α-Al2O3)在0~250GPa静水压力范围内的光学透明性进行了研究。

    Optic transparency of two window materials ( single crystals of LiTaO_3 and sapphire Al_2O_3 ) was calculated under pressure up to 250 GPa with ab initio plane wave pseudo-potential non-local general gradient approximation method ( PP-GGA ) .

  9. 光电装备的光学窗口激光变换特性研究

    Laser transformation characteristic research of optical windows in optical electrical apparatus

  10. 载人飞船光学窗口的热光学灵敏度和热控制策略

    Thermo-optical sensitivity and thermal control system for manned spaceship optical windows

  11. 光学窗口和激光腔片的低熔点玻璃封接技术

    A technique for glass sealing of optical windows and laser cavity mirrors

  12. 环形分布激光束引起光学窗口镜热变形理论分析

    Thermal deformation of optical windows induced by annularly-distributed laser beam

  13. 宽波段的类金刚石薄膜光学窗口

    Development of diamond like carbon film coated window with wide spectral transmission

  14. 属于碱卤化合物和聚乙烯的复合物,是无机&有机复合材料,这种材料被广泛的应用于远红外波段的光学窗口和透镜材料。

    The material is used widely in the far-infrared optical windows and lenses .

  15. 空间相机光学窗口的热光学评价

    Thermal Optical Evaluation to Optical Windows of Space Camera

  16. 聚变装置光学窗口的密封技术

    The seal technologies of optical windows in fusion devices

  17. 光学窗口材料激光辐照热-力效应的解析计算研究

    Calculation of Thermal and Mechanical Effect Induced by Laser in Optical Window Materials

  18. 空间光学窗口的热光学灵敏度分析

    Analysis for Thermo-Optical Sensitivity of Space Optical Window

  19. 介绍光电系统中球形壳体上光学窗口的设计方法。

    The design of optical window on a spherical shell in electro-optical systems is introduced .

  20. 红外光学窗口和罩材料的最新进展

    Newly-Developed Trends of Infrared Window and Dome

  21. 通过这种方法,可以用较少的光学窗口,得到较高的角分辨率。

    Based on this way , higher angular resolution can be obtained with fewer sensors .

  22. 同时研制和设计了一种热梯度法制备核聚变低温冷冻靶用的带光学窗口的异型低温恒温器。

    A cryostat used to fabricate cryogenics target by the thermal gradient method is designed .

  23. 蓝宝石晶体是一种性能优异的光学窗口候选材料,被广泛应用于航空航天和军事领域。

    Sapphire is an excellent optical window crystal and has been widely used in aerospace and military field .

  24. 介绍了超音速机载红外测量吊舱系统(以下简称红外测量吊舱)红外光学窗口的设计依据;

    The design of infrared optical window for the ultrasonic pod infrared system loaded in the plane is introduced .

  25. 光学窗口作为空间详查相机光学系统的重要组成部分,对光学性能的要求十分苛刻。

    Optical window with strict optical index is one of important parts of optical imaging system of space camera .

  26. 在制定光学窗口的热控制策略时,应对径向温差和周向温差进行重点控制。

    Therefore , the radial and circumferential temperature gradients must be carefully controlled in an optical window thermal control system .

  27. 文中还对真空低温腔的关键部件光学窗口和梯形支撑的设计进行了详细分析。

    Ultimately , detailed analyses were presented about the design of the key part of cryogenic vacuum chamber & the optical window and trapezia supports .

  28. 更进一步地,对光学窗口上方的层流边界层、湍流边界层、混合层及各种大尺度结构对波前畸变的影响作了分析。

    Furthermore , the effects of the laminar and turbulent boundary layer and the mixing layer and the large scale structures in them on the optical distortion were discussed .

  29. 另外在高速气流作用下,光学窗口表面温度会急剧升高,影响窗口的性能,因此需要对光学窗口进行冷却。

    Otherwise , by the action of the air with high speed , the temperature of the optical window will increase badly thus its properties will be impacted . So the optical window must be cooled .

  30. 近来,由于合成化学的发展,单分散、强发光、发射光谱覆盖整个光学窗口的纳米晶材料已经可以通过低成本、绿色的方法获得。

    With the recent developments in synthetic chemistry , nearly monodisperse , highly luminescent semiconductor plain core and core / shell nanocrystals covering an entire optical window could be prepared at low cost with so-called greener approaches .