Microscopic Derivation of Kinetic Equations for Interacting Optical Two-Level Systems

A. R. Kessel; V. A. Popov

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Microscopic Derivation of Kinetic Equations for Interacting Optical Two-Level Systems

机译：相互作用光学两能级系统动力学方程的微观推导

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Kinetic equations are derived for optical two-level atoms interacting with a molecular subsystem treated as a thermostat. It is assumed that the kinetics is determined by the electric dipole interaction perturbed by the thermal motion. Dynamic parts of the kinetic equations coincide with the corresponding terms of optical Bloch equations, whereas nonlinear relaxation and shift terms have the specific form and are absent in the phenomenological generalized Bloch equations. It is shown that the relaxation kinetics can be substantially different from the exponential one and depends on the initial state of the system. In particular, the inversion relaxation is frozen at small deviations from the equilibrium. The possibility of observation of the optical bistability is discussed.

机译：推导了光学二级原子与被视为恒温器的分子子系统相互作用的动力学方程。假设动力学是由热运动扰动的电偶极子相互作用决定的。动力学方程的动态部分与光学Bloch方程的相应项一致，而非线性弛豫和位移项具有特定形式，在现象学广义Bloch方程中不存在。结果表明，弛豫动力学可以与指数动力学基本不同，并且取决于系统的初始状态。尤其是，反演弛豫被冻结在偏离平衡的微小偏差处。讨论了观察光学双稳态的可能性。

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《Optics and Spectroscopy》 |2000年第2期|共6页
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A. R. Kessel; V. A. Popov;
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中图分类光学;
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1. Microscopic Derivation of Kinetic Equations for Interacting Optical Two-Level Systems [J] . A. R. Kessel, V. A. Popov Optics and Spectroscopy . 2000,第2期

机译：相互作用光学两能级系统动力学方程的微观推导
2. Solution of the generalized kinetic equation for interacting two-level atom and cavity field system [J] . Rasulova M.Yu., Tishabaev I.A. Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2011,第16期

机译：二级原子和空穴场系统相互作用的广义动力学方程的解
3. Restriction on relaxation times derived from the Lindblad-type master equations for two-level systems - art. no. 062113 [J] . Kimura G. Physical Review, A. Atomic, molecular, and optical physics . 2002,第6期

机译：从二级系统的Lindblad型主方程得出的弛豫时间限制-艺术。没有。 062113
4. A New Derivation and Solution Method for Phase-Noise Fokker-Planck Equations in Coherent Optical Systems [C] . Yunfeng Wang, Gregory S. Chirikjian 37th annual conference on information sciences and systems (CISS 2003) . 2003

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5. The analytical derivation and applications of the NLS equation for nonlinear optical propagation in dielectric optical fiber devices. [D] . El-Reedy, Jamil Omar-Hatem. 2002

机译：NLS方程在介质光纤器件中非线性光学传播的解析推导和应用。
6. An extension of Chous graphic rules for deriving enzyme kinetic equations to systems involving parallel reaction pathways. [O] . G P Zhou, M H Deng 1984

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7. QED-based Optical Bloch Equations without electric dipole approximation: A model for a two-level atom interacting with a monochromatic X-ray laser beam [O] . Zhang, Wen-Zhuo, Liu, Wu-Ming 2012

机译：基于QED的无电偶极近似光学Bloch方程：用于与单色X射线激光相互作用的两能级原子的模型光束
8. Difficulty and Possibility of Kinetic Theory of Quantum-Mechanical Systems - Supplement: Linearization of Covariant Equations for a Non-Euclidean Field - Derivation and Interpretation of the Dirac Equation and of the Maxwell-Lorentz Equations [R] . Koga, T. 1969

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Microscopic Derivation of Kinetic Equations for Interacting Optical Two-Level Systems

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