hole-burning

美 [hoʊl ˈbɜːrnɪŋ]英 [həʊl ˈbɜːnɪŋ]
  • 网络烧孔
hole-burninghole-burning
  1. Experimental Research on Coherent Hole-burning in Atomic Rubidium Vapor

    ~(87)Rb原子相干烧孔效应的实验研究

  2. Properties of persistent spectral hole-burning in tzt / ac / pmma system

    TZT/AC/PMMA体系的永久性光谱烧孔性能研究

  3. Study on Materials Characteristics of Holographic Grating Spectral Hole-Burning Storage System

    全息光栅光谱烧孔系统和材料特性的研究

  4. Dual-wavelength Fiber Laser Based on Polarisation Hole-burning Effect at Room Temperature

    用偏振烧孔实现的室温双波长光纤激光器

  5. Quantum efficiency of hole formation for persistent spectral hole-burning materials

    永久性光谱烧孔材料的成孔量子效率

  6. Coherent Hole-burning is a new theory that combines the optical hole-burning and atomic coherence .

    相干烧孔是把原子相干效应与传统的光学烧孔过程相结合。

  7. The polarization spectral hole-burning mechanism and anisotropic hole formation process at speed on both theory and experiment are reported in this paper .

    着重讨论固体偏振光谱烧孔理论及快速成孔机理,并在实验上观察到各向异性成孔动力学过程,理论和实验上得到很好的拟合。

  8. The phenomenon of spectral hole-burning in homogeneously broadened media and the experimental slowing of light in ruby are described .

    主要阐述了均匀加宽介质中的光谱烧孔理论以及借助光谱烧孔技术在红宝石晶体中实现光速减慢的实验。

  9. The four-mirror bow-tie ring cavity with a Faraday rotator and a half wave plate was applied to eliminate the spatial hole-burning effect .

    在腔内插入偏振片、法拉第旋光器和半波片从而实现激光的单向运转以抑制空间烧孔效应;

  10. In DMSO , a " hole-burning " phenomenon was observed in the spectrum of malachite green when it was-oxidized .

    在DMSO溶剂中,发现氧化后的孔雀绿,在可见光谱有烧洞现象。

  11. Spectral hole-burning ( SHB ) can distort the gain spectrum of an erbium-doped fiber amplifier ( EDFA ), thus leads to reduced system performance in long-haul WDM optical fiber system .

    掺铒光纤放大器(EDFA)的烧孔效应(SHB)是导致放大器增益不平坦主要因素,进而影响长距离波分复用(WDM)光纤传输系统的性能。

  12. By utilizing Hi-Bi fiber loop mirror and fiber polarizer to control the intracavity polarization state , a multi-wavelength erbium-doped fiber laser by exploiting PHB ( polarization hole-burning ) is realized .

    通过双折射光纤环境反射器和光纤起偏器来控制腔内偏振态,实现了利用偏振烧孔效应的多波长掺铒光纤激光器。