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Nonperturbative Analysis of the Two-Level Atom: Applications to Multiphoton Excitation

机译：二能级原子的非微扰分析：多光子激发的应用

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Selective excitation in an atomic system subjected to a slowly varying external electromagnetic field is studied using a two-level model. Time evolution of the system is found using an approach which is nonperturbative in the field strength. There is no constraint to small values of the applied field, that is, the field (in appropriate energy units) need not be small compared to the difference in energies of the two levels. Rather, we prey upon the fact that the situation of interest to us is where the frequency of the exciting field is small compared to the frequency associated with the level difference. Transition probabilities and resonance conditions are found which circumscribe both the large and small field limits. In the weak field limit the previous results of high-order perturbation theory are readily recovered. For a monochromatic field the characteristic features of resonance excitation at high harmonic number of the applied field are (a) extremely narrow resonance widths and (b) shifts in resonance positions which are strong functions of field intensity. Because of this sensitivity, we are able to demonstrate that when slow temporal evolution of the field amplitude is taken into account (e.g., due to finite pulse duration) the appropriate mean excitation rate is that due to the uncorrelated contribution of many resonances. The results of this analysis are used to estimate excitation rates in a specific atomic system, Cd sup 12+ , which are then compared to multiphoton ionization rates. Our calculations suggest that the ionization rate exceeds the excitation rate by several orders of magnitude. 15 refs., 3 figs. (ERA citation 12:048721)

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Duvall, R. E. ; Valeo, E. J. ; Oberman, C. R.;
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年度 1987
页码 1-37
总页数 37
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Photon-Atom Collisions; Multi-Photon Processes; Cadmium Ions; Electromagnetic Fields; Frequency Dependence; Hamiltonians; Laser Radiation; Resonance;

机译：光子 - 原子碰撞;多光子过程;镉离子;电磁场;频率依赖性;哈密顿量;激光辐射;共振;

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专利

1. Enhanced Superradiance Effect in a System of Interacting Two-Level Atoms and Crossover from Coherent to Many-Atom Multiphoton Relaxation Regime [J] . S. Lukyanets, D. Bevzenko Optics and Spectroscopy . 2011,第5期

机译：相互作用的两能级原子和从相干到多原子多光子弛豫体系的交叉体系中增强的超辐射效应
2. ENHANCED SUPERRADIANCE EFFECT IN A SYSTEM OF INTERACTING TWO-LEVEL ATOMS AND CROSSOVER FROM COHERENT TO MANY-ATOM MULTIPHOTON RELAXATION REGIME [J] . S. Lukyanets, D. Bevzenko Оптика и спектроскопия . 2011,第5期

机译：从相干到多原子多光子弛豫体系的相互作用的两级原子和交叉体系的增强的超光谱效应
3. Coherent radiation by two-level quantum systems with permanent dipole moments under multiphoton resonant laser excitation [J] . Avetissian H.K., Avchyan B.R., Mkrtchian G.F. Journal of Physics, B. Atomic, Molecular and Optical Physics: An Institute of Physics Journal . 2012,第2期

机译：多光子共振激光激发下具有永久偶极矩的两能级量子系统的相干辐射
4. Nonperturbative theory of cavity-controlled spontaneous emission of two-level atom tra [C] . Vladislav F. Cheltsov, Moscow State Mining Univ., Moscow, OPTIKA '98: 5th Congress on Modern Optics . 1998

机译：腔控制的两能级原子自发发射的非扰动理论
5. Experimental study of fluorescence spectrum of two-level atoms driven by bichromatic optical field excitation [D] . Yu, Chung-Chieh 1998

机译：双色光场激发驱动的两能级原子荧光光谱的实验研究
6. Application of multiphoton imaging and machine learning to lymphedema tissue analysis [O] . Yury V. Kistenev, Viktor V. Nikolaev, Oksana S. Kurochkina, 2019

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7. Nonperturbative analysis of the two-level atom: Applications to multiphoton excitation [O] . R. E. Duvall, E. J. Valeo, C. R. Oberman 1988

机译：两级原子的非触发分析：应用于多光电激励的应用

Nonperturbative Analysis of the Two-Level Atom: Applications to Multiphoton Excitation

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