1) multiple spectral hole burning
多重光谱烧孔
2) hole burning
光谱烧孔
1.
n this paper,the authors report the temperature dependence of homogeneous line width in photon-gated spectral hole burning materials:metal-tetrabenzoporphyrin derivatives/p-hyfroxybenzaldhyde/PMMA or CA,at a temperature range,from 30K to 70K.
本文通过在不同温度下对金属卟琳系列光子选通光谱烧孔材料的测试,研究了部分有机电子转移型烧孔材料的均匀线宽随温度变化的关系,在30K到70K温度范围内得到了Γhom∝T1。
2.
The dependence of hole depth on pulse number were observed and hole burning quantum efficiency with different laser power were obtained.
本文由光谱烧孔的发光动力学方程出发,推导了脉冲光烧孔并选通的情况下量子效率的表达式。
3) spectral-hole burning
光谱烧孔
4) spectral hole-burning
光谱烧孔
1.
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。
2.
Mathematic relations between system characteristics, materials characteristicsand read/write condition are established for holographic grating spectral hole-burningtechnology.
建立了全息光栅光谱烧孔技术中,系统的存储密度、读出信噪比和材料特性、读写条件关系的数理模型,计算机模拟定量分析得到了最佳材料特性参量空间。
5) spectral hole burning
光谱烧孔
1.
With the transient solutions of optical Bloch equation the dependences of hole width and depth on the burning pulse duration have been discussed in spectral hole burning of two level system.
由光学Bloch方程出发,从理论上计算了孔宽和孔深与脉冲持续时间的关系,并讨论了二能级系统光谱烧孔中孔宽和孔深与激光脉冲持续时间的关系。
2.
And then the progress of three-dimensional optical storage, the principle of data storage, as well as problems of various ways of storage need to be solved about 2-photon 3D optical storage, spectral hole burning for data storage, holographic storage, and thre.
介绍了双光子吸收光存储、光谱烧孔光存储、激光全息存储和透明介质的飞秒脉冲体存储等三维光存储的进展、数据存储的原理以及各种存储方法有待解决的问题。
3.
The present paper report the research results on inhomogeneous broadening, fluorescence line narrowing, high temperature persistent spectral hole burning, mechanism of hole burning, hole burning dynamics and thermal stability of spectral holes.
基于光谱烧孔在高密度光存储中的可能应用,研究了谱线非均匀加宽、荧光谱线窄化、高温永久性光谱烧孔、烧孔机理、烧孔动力学过程和光谱孔的热稳定性。
6) persistent spectral hole burning
持久光谱烧孔
补充资料:烧孔
分子式:
CAS号:
性质:在较宽的非谐性吸收或发射带中光漂白后形成的通常较窄的图形。烧结的形成与部分经共振激发的分子在通过光物理或光化学过程后的消失有关。以此为基础的光谱技术称为位点选择光谱法。
CAS号:
性质:在较宽的非谐性吸收或发射带中光漂白后形成的通常较窄的图形。烧结的形成与部分经共振激发的分子在通过光物理或光化学过程后的消失有关。以此为基础的光谱技术称为位点选择光谱法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条