闪烁晶体

  • 网络Scintillator;scintillation crystal;scintillating crystal;scintillators
闪烁晶体闪烁晶体
  1. 国产BaF2闪烁晶体特性的测试

    The tests to the properties of baf_2 scintillator made in China

  2. 闪烁晶体γ能谱拟合方法的比较

    Comparison of the Methods Used in the Scintillator γ Spectrum Fitting

  3. X射线激发荧光光谱仪的建立及闪烁晶体发光表征

    X-ray excited fluorescence spectrometer and optical characteristics of scintillation crystals

  4. Yb:YAG闪烁晶体的UV发光特性

    UV Emission Properties of Yb : YAG Scintillation Crystal

  5. PET闪烁晶体性能比较

    Comparison of properties of PET scintillation crystals

  6. 国产高Z闪烁晶体辐照损伤研究

    Study on Radiation Damage of Domestic High-Z Scintillation Crystals

  7. PET用闪烁晶体

    Scintillation crystals required for PET

  8. 卤化镧系LnX3(Ce)闪烁晶体的研究进展

    Progress on LnX_3 ( Ce ) Scintillator Crystals

  9. 大面积CsI(Tl)闪烁晶体生长的研究

    Study on Growth of Large-area CsI ( Tl ) Scintillating Crystals

  10. 大尺寸无机闪烁晶体Ce~(3+):YAG的生长和光谱研究

    Study on Crystal Growth and Optical Spectra of Large Size Inorganic Scintillator Ce ~ ( 3 + ): YAG

  11. CsI(Tl)闪烁晶体研究进展

    Research Progress of CsI ( Tl ) Scintillation Crystal

  12. 高温闪烁晶体Ce∶LSO的生长研究

    Czochralski Growth of High Temperature Scintillation Crystal Ce ∶ LSO

  13. 在总强度为105~Ci的~(60)Coγ射线辐照装置上开展了国产高Z闪烁晶体的辐照损伤研究。

    Radiation damage effects of several Chinese-made high-Z scintillation crystals have been studied on a ~ ( 60 ) Co irradiation unit of 100 KCi .

  14. BaF2和BGO闪烁晶体对γ射线的线性衰减系数

    The Linear Attenuation Coefficients of BaF_2 and BGO Scintillators for γ Rays

  15. 探测器的设计是PET系统开发中一个极为重要的环节。探测器模块主要包含两个部分:闪烁晶体和光电转换器件。

    Detector design is one of the most important parts in PET development . A detector module has two main components which are scintillator crystal and photon detector .

  16. BGO闪烁晶体探测器性能的研究。

    Study on the performance of BGO scintillant crystal detector .

  17. BaF2闪烁晶体在低能方面的应用

    Low Energy Application of BaF_2 Scintillator

  18. 对坩埚下降法生长锗酸铋(BGO)闪烁晶体的缺陷进行研究。

    The defects of bismuth germanate crystal grown by Bridgman method were investigated .

  19. 硅酸铋(BSO)闪烁晶体的研究综述

    Review on the Research of Bismuth Silicate Scintillation Crystals

  20. 新型无机闪烁晶体BGO

    A New Inorganic Scintillation Crystal BGO

  21. 坩埚下降法生长BSO(Bi4Si3O(12))闪烁晶体

    Crystal Growth of BSO ( Bi_4Si_3O_ ( 12 )) by Bridgman Method for Radiation Detectors

  22. 我们在对闪烁晶体Ce∶YAP的研究过程中,发现了YAP晶体的变色现象。

    In our research on scintillation crystal of Ce ∶ YAP , a peculiar phenomenon of color change in YAP crystal was found .

  23. 新型闪烁晶体Ln2SiO5的研究进展

    Progress of Research on Inorganic Scintillation Crystals

  24. 本文综述了CsI(Tl)闪烁晶体的生长、缺陷、闪烁性能及其应用领域的研究与发展趋势。

    Here , the research progress of CsI ( Tl ) crystal was reviewed , including crystal growth , defects , scintillation properties and applications .

  25. LSO闪烁晶体探测器能量响应研究

    Study of energy response for a LSO scintillator detector

  26. 本文首先利用电化学刻蚀设备,制备微通道阵列,其次根据闪烁晶体的不同性质,选择出适合于本课题的闪烁晶体材料&CsI(T1)。

    And then scintillation crystal materials & CsI ( T1 ) is chosen which is suitable for this subject by the different nature of the scintillation crystal .

  27. 基于蒙特卡罗模拟的NaI,BGO,LSO,GSO,YSO闪烁晶体对比研究

    Comparative study of NaI , BGO , LSO , GSO and YSO scintillators using Monte Carlo simulations

  28. 本文以普通光源、激光、同步辐射以及阴极射线为激发源,对我们生长的Ce3+∶YAG闪烁晶体的激发和发光特性进行了系统的研究。

    In this paper , excitation and luminescence properties of Ce 3 + ∶ YAG single crystal were systematically studied using visible , ultraviolet , vacuum ultraviolet light , laser and cathode-ray as excitation sources .

  29. 本文研究了大尺寸、高光学质量无机闪烁晶体Ce3+:YAG的生长,并对它的吸收光谱和荧光光谱进行了测量和分析。

    In this paper , the growth of inorganic scintillator Ce 3 + : YAG with large size and high optical quality have been researched and its absorption and fluorescence spectra have also been measured and analyzed .

  30. 掺Ce硅酸钆(Ce:Gd_2SiO_5)晶体具有发光效率高,响应速度快、不潮解、抗辐照和耐高温等优异性能,是一种综合性能好,具有实际应用价值的闪烁晶体。

    Ce-doped Gd_2SiO_5 ( GSO : Ce ) is a promising scintillation crystal with superior properties for the practical use . GSO : Ce is a typical fast , high density , nonhydroscopic , radiation hardness material .