双光子吸收在聚焦光束扫描存储技术中的应用;
Second, application of two photon absorption to three dimension density optical data storage is described.
双光子吸收限制了钕玻璃放大器的输出峰值强度。
The peak output intensity for Nd glass amplifiers is limited by two-photon absorption.
结果表明,喇曼放大可以抵消双光子吸收的影响。
It is shown that Raman amplification can counteract the effects of two-photon absorption.
本文研究了双光子共振相干激发三能级系统的问题。
In this paper coherent excitation of two-photon resonance in three-level systems is discussed.
得到简并双光子过程中原子约化密度算符非对角元。
The non-opposite angle element of two-level atom's reducible density rectangular array is obtained.
本文用弹球模型讨论了双光子三能级光子回波的形成。
The Billiard-Ball Model has been used to discuss the formation of Two-photon Tri-level Echo.
本文给出了有关双光子共振介质中光学双稳的一般理论。
In this paper, the optical bistability in two-photon resonance media is discussed theoretically.
论文10属于首次对双光子圆二色电子振动光谱的研究。
Paper 10 is the first study on Vibronically resolved spectra of two-photon circular dichroism.
该分子在相应系列衍生物中具有最大的双光子吸收截面。
The molecule has the largest two-photon absorption cross section among its series of studied derivatives.
研究了双光子吸收与喇曼放大对基本光孤子传输的影响。
The effects of two-photon absorption and Raman amplification on the propagation of fundamental optical solitons are studied.
目前,有机分子的双光子吸收性质都是在溶剂中测量的。
Nowadays, many experimental measurements of tpa cross sections of organic molecules take place in solutions.
在QCD领头级近似之下计算了单、双光子的产生截面。
Cross sections of both single and double photon are calculated in leading order QCD corrections.
介绍了飞秒激光双光子微细加工技术的原理和应用的现状。
The principle and current application of the femtosecond two-photon microfabrication are introduced.
本文研究在双光子场作用下二能级原子时间行为的精确解。
The exact solution of time behaviour of the two-level atom interacted with two-photon field is obtained.
阐述了双光子激发的原理和飞秒激光三维加工的技术特点。
The principle of two-photon excitation and the features of femtosecond laser three-dimensional micro-fabrication technology were presented.
第一章主要介绍了非线性光学和双光子吸收材料的研究现状。
In the first chapter, nonlinear optics and the research of two - photon absorption materials are introduced.
第一章主要介绍了非线性光学和双光子吸收材料的研究现状。
In the first chapter, nonlinear optics and the research of two-photon absorption materials are introduced.
本文研究了包括二阶离化过程的强激光场下的双光子自电离。
In this paper, the two-photon autoionization involving second-order ionization process under strong laser field is investigated.
研究了双光子非共振作用系统中纯度和密度算符间距的特性。
The time evolution properties of purity and distance between density operators in two photon non resonant interaction system are studied.
文章对双光子激光扫描荧光显微镜的原理及其应用进行了综述。
The principle of two-photon laser scanning fluorescence microscopy and its applications are reviewed.
结果显示噻吩单元的数目影响分子的单光子和双光子吸收性质。
The results show that the number of thiophene units affects the properties of one-photon absorption and two-photon absorption.
本文提出了一个窄带半导体双光子光学双稳性的稳态理论模型。
The steady state model of two-photon optical bistability in narrow-gap semiconductors are presented.
得到了双光子吸收的荧光强度和入射光的能量密度平方成正比。
The fluorescence intensity of TPA was in direct ratio with square of incident energy consistency.
推导自发参量下转换双光子态的数学表达式,并给出其几率解释。
Then state function of SPDC biphoton light field was derived and a probability explanation was given.
利用激光双光子电离技术研究了在大气压力下探测痕量苯系物的方法。
The method of trace detection of benzene, toluene, ethylbenzene, and xylene(BTEX) was studied in ambient air using laser two-photon ionization.
为了获得更加清晰的光谱线,他们成功发现了非线性方法像磁性饱和和双光子光谱学。
Tomget sharper spectral lines, they started by successfully developing nonlinear methods such as saturation or two-photon spectroscopy.
具有双光子光折变效应的光折变介质温度的变化对光伏孤子性质具有影响。
The characteristic of the photovoltaic spatial solitons in two-photon photorefractive media is influenced by the temperature of the media.
而且,随着溶剂极性的增加,激发态的激发能减小,双光子吸收截面增大。
Furthermore, with the increase of the polarity of solvent, the excited energies is decreased and the tpa cross section is increased.
在双光子聚合敏化染料的设计合成中,结构与性质的关系一直是研究的重点。
Structure-property relationship was the focal point in the design and synthesis of high efficient two-photon polymerization (TPP) sensitizers.
分子基态与电荷转移态的电荷转移过程定性地解释了双光子聚合反应的聚合机理。
The charge_transfer process for the charge_transfer states is displayed, and then the mechanism of photopolymerization is discussed qualitatively.
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