蓝宝石

lán bǎo shí
  • sapphire
蓝宝石蓝宝石
蓝宝石 [lán bǎo shí]
  • [sapphire] 一种蓝色透明的刚玉,硬度大,用做首饰或精密轴承

  1. Ti,Fe离子掺杂对水热法合成蓝宝石晶体的影响

    Effects of Ti , Fe-doped on the Sapphire Crystals in Hydrothermal Synthesis

  2. 淀积在不同小倾角蓝宝石衬底的n型GaN的研究

    Investigation of n-type GaN deposited on sapphire substrate with different small misorientations

  3. 她还收到一块镶着钻石和蓝宝石的金表

    She also sported a somewhat gawdy gold watch set with diamonds and sapphires .

  4. 她眼眶中又闪烁出蓝宝石的光彩,接着眼睑象鱼鳞般地垂落下来,双目又黯然失色了

    Again there was that moment of splintered sapphires before the lids , dropping like scales , extinguished it .

  5. 宝石类有水晶、玛瑙、翡翠、碧玉、钻石、红宝石和蓝宝石等等。各种宝石都是玲珑剔透、璀璨晶莹

    Lapidary kind crystal , agate , halcyon , jasper , diamond , ruby and sapphirine are waited a moment .

  6. 蓝宝石上射频溅射沉积CeO2外延缓冲层

    Growth of epitaxial ceo_2 thin films on sapphire by radio-frequency sputtering

  7. 水热法合成ZnO晶体和蓝宝石晶体

    Hydrothermal Synthesis of the ZnO Crystal and Sapphire Crystal

  8. 目前多数商业化的GaN基LED通常是在蓝宝石和SiC衬底上,通过有机物化学气相沉积生长。

    Commercial GaN-based LEDs are usually grown by MOCVD on sapphire or SiC substrates .

  9. 蓝宝石R面上ZnO薄膜的NH3掺杂研究

    Study on NH_3 Doping in ZnO Film Grown on R-plane of Sapphire Substrate

  10. SEM在宝石学中的应用我国东部蓝宝石的宝石学特征

    THE APPLICATION OF SCANNING ELECTRON MICROSCOPE IN GEMMOLOGY Gemological Characteristics of the Sapphire in Eastern China

  11. 氮化蓝宝石衬底上GaN薄膜的微结构与光学性质

    Microstructural and Optical Properties of GaN Films on Nitrided Sapphire Substrates

  12. 蓝宝石/氮化铝衬底上SiC外延薄膜的X射线衍射分析

    Analysis of the SiC thin film epitaxy on the sapphire / AlN compound substrate by X ray diffraction

  13. 蓝宝石目前已从风投手中募集到3亿美元,投资者包括比尔·盖茨旗下的瀑布投资(CascadeInvestment)。

    The company has raised about $ 300 millionfrom venture capitalists , including cascade investment , which is owned by Bill Gates .

  14. 自启动、低功率泵浦的自锁模Ti:蓝宝石激光器和它的高效连续运转

    Self-starting , Operation of a Self-mode-locked Ti : sapphire Laser with Low Pump Power and Its CW Operation

  15. 用于GaN生长的蓝宝石衬底化学抛光研究

    Chemical Polishing of Sapphire for Growth of GaN

  16. 蓝宝石衬底上SiO2薄膜的制备与光学性能

    Preparation of silica thin film on sapphire and its optical properties

  17. SiO2薄膜对蓝宝石红外透过性能的改善

    Improvement of the Infrared Transmission of Sapphire by SiO_2 Films

  18. 华纳拥有28年石油行业从业经验,在加入蓝宝石前,她是英国石油(BP)全球炼油业务负责人。

    Warner joined sapphire after 28 years in the oil business , most recently as head of global refining ATBP ( BP ) .

  19. 蓝宝石衬底上单晶InN外延膜的RFMBE生长

    RF-MBE Growth of an InN Epilayer on Sapphire Substrate

  20. 利用激光分子束外延(L-MBE)在蓝宝石(1-102)面上自组织外延生长了ZnO量子点。

    The ZnO self-organized quantum dots have been grown on the sapphire ( 1-102 ) substrate by laser molecular beam epitaxy .

  21. 而表面覆盖蓝宝石基板退火的样品,有效去除了氢杂质,但没有观察到可见光发射,说明表面覆盖蓝宝石基板退火可以有效地保护ZnO表面不分解,不生成深能级中心。

    In the surface-covered annealed sample , an elimination of the hydrogen impurities is also observed , and the deep-level emission disappears completely .

  22. 用DC-PCVD装置在绝缘体蓝宝石上沉积TiN

    Deposition of tin on insulator alundum by DC - PCVD instrument

  23. 采用金属有机物化学气相淀积(MOCVD)技术在蓝宝石衬底上制备了样品。

    The corresponding two samples were grown by metal-organic-chemical-vapor-deposition ( MOCVD ) on sapphire substrate .

  24. 用MOVPE方法在蓝宝石衬底上生长了高纯氮化镓(GaN)外延材料。

    High Purity GaN films have been grown on sapphire substrate by MOVPE .

  25. 在蓝宝石衬底上低压MOVPE生长GaN单晶

    Epitaxial growth of GaN on sapphire substrate by LP-MOVPE

  26. 蓝宝石上硅膜(SOS)肖特基结注入电流检测的电子自旋共振及Si/Al2O3界面缺陷

    ESR of Silicon Film on Sapphire Detected by Injected Current and the Defects on the Si / Al_2O_3 Interface

  27. 蓝宝石衬底的ECR等离子体清洗与氮化的RHEED研究

    Study of ECR-Plasma Cleaning and Nitridation of Sapphire Substrate by RHEED

  28. 当前,有大量关于在蓝宝石和Si衬底上生长InN纳米结构的报道,但很少有在GaN衬底上生长InN纳米结构的报道。

    Currently , there are many reports on InN nanostructures grown on sapphire or Si substrates , but few on GaN substrates .

  29. LED晶片键合技术可以把LED外延片和GaP透明衬底、金属镜面衬底或蓝宝石衬底结合以提高出光效率。

    LED wafer bonding , the attachment of LED epitaxial wafer to another substrate such as GaP transparent substrate , metal mirror substrate or sapphire substrate , increases the light emitting efficiency .

  30. 利用蓝宝石单晶光纤温度计测温,通过调整模糊PID控制器参数控制微波辐射输出功率实现温度的精确控制。

    With the output power of microwave irradiation controlled by Fuzzy-PID controller , the temperature , measured by sapphire single crystal optical fiber temperature sensor , was controlled very precision .