钽酸锂晶体

  • 网络lithium tantalate crystal
钽酸锂晶体钽酸锂晶体
  1. 钽酸锂晶体宽带滤波器

    Wide - - band filter using lithium tantalate crystal

  2. 近化学计量比钽酸锂晶体的拉曼光谱研究

    Study on Raman Spectrum of Near-stoichiometry Lithium Tantalate

  3. SAW级钽酸锂晶体生长

    Growth of the LiTaO_3 Single Crystals for SAW Devices

  4. 钽酸锂晶体的喇曼光谱及其方向色散的测定

    Raman spectra of LiTaO_3 crystal and directional dispersion of extraordinary phonons

  5. 钽酸锂晶体波导基片光损伤的研究

    Study on the photo damage of the lithium tantalate waveguide

  6. 基于钽酸锂晶体的太赫兹波参量振荡器运转特性的研究

    Investigation of the operation characteristics of terahertz-wave parametric oscillator based on LiTaO_3

  7. 用于准速度匹配位相调制器的钽酸锂晶体畴反转技术研究

    Study on Technology of Periodic Poling Lithium Tantalate for Quasi-velocity-matching Phase Modulator

  8. 5英寸钽酸锂晶体生长工艺技术研究

    Study on ф 5 inch LiTaO_3 Crystals Growth Process

  9. 铁掺杂钽酸锂晶体的生长及性能的研究

    Growth and Properties of Lithium Tantalum Doped with Fe

  10. 准速度匹配相位调制器钽酸锂晶体的室温电场极化技术

    Electrical-Poling Technology of Lithium Tantalate for Quasi-Velocity-Matching Phase Modulator

  11. 弱热释电效应黑色铌酸锂、钽酸锂晶体研究

    Study on Free-Pyro Black LiNbO_3 and LiTaO_3 Crystals

  12. 钽酸锂晶体极化条件的研究周期极化铌酸锂制作与应用

    STUDY ON POLARIZATION CONDITIONS OF L_iTaO_3 CRYSTALS The Manufacture and Application of Periodically Poled Lithium Niobate

  13. 利用热释电和化学腐蚀方法,成功地实现了钽酸锂晶体的大面积畴反转。

    Large-area domain inversion of LiTaO_3 is successfully realized proved by thermoelectric effect and chemistry etching method .

  14. 然而钽酸锂晶体在高光强照射的情况下会产生光致散射,导致全息存储图像质量严重下降。

    However , light scattering can be induced by high light intensity in lithium tantalum , which results in serious holograph distortion .

  15. 铌酸锂和钽酸锂晶体具有优良的电学及光学性能,已经在全息存储和准相位匹配等方面得到了广泛的应用。

    Lithium niobium and Lithium tantalum , due to excellent electrics and optical properties , have been widely applied to volume holographic memory .

  16. 从铌酸锂和钽酸锂晶体的结晶学数据出发,分析其结构特征和组成化学键的结合情况。

    Starting from the crystallographic data of lithium niobate and lithium tantalate crystals , structural characteristics and chemical bonding behaviors of both crystals are studied .

  17. 压电用钽酸锂单晶体生长的研究

    A Study on the Crystal Growth of Piezoelectric Lithium Tantalate