反jaynes - cummings模型是可解的:在旋转和反旋转坐标系中的量子Rabi模型;在实验之后

Joseph Omolo
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引用次数: 2

摘要

这篇文章是对持续假设的回应,甚至在最近的实验突破和理论方法进展的报告和评论中也被引用,即反杰恩斯-卡明斯(AJC)相互作用是量子拉比模型(QRM)中难以处理的能量非守恒组成部分。我们提出了QRM动力学的三个关键特征:(a) AJC相互作用分量具有一个守恒激励数算子,并且是精确可解的;(b) QRM动力学空间由一个以产生RF的U(1)对称性的守恒JC激励数算子指定的精确解Jaynes-Cummings (JC)相互作用为主导的旋转坐标系(RF)和一个以产生U(1)对称性的守恒AJC激励数算子指定的精确解反Jaynes-Cummings (AJC)相互作用为主导的相关逆旋转坐标系(CRF)组成RF中QRM动力学演化的U(1)对称性,初始原子场态je0i是有效AJC哈密顿量HAJC的特征态,而有效JC哈密顿量HJC将该初始态je0i驱动为时间演化的纠缠态,在相应的CRF中QRM动力学演化过程中,初始原子场态jg0i是有效JC哈密顿量的特征态。而有效的AJC哈密顿量将这个初始状态jg0i驱动到一个时间演化的纠缠态,从而解决了理论和实验QRM动力学的长期挑战之一;将初始态je0i, jg0i分别推广到RF中AJC和CRF中JC对应的n个纠缠本征态j+en i, j􀀀g ni,提供了QRM在原子、场模式、初始光子数较大的JC和AJC激发数的时间演化中以坍缩和恢复为特征的一般动力学演化;JC和AJC激励数在各自的帧RF、CRF中保持不变,但在交替帧中随时间而变化。
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The anti-Jaynes-Cummings model is solvable : quantum Rabi model in rotating and counter-rotating frames ; following the experiments
This article is a response to the continued assumption, cited even in reports and reviews of recent experimental breakthroughs and advances in theoretical methods, that the antiJaynes-Cummings (AJC)interaction is an intractable energy non-conserving component of the quantum Rabi model (QRM). We present three key features of QRM dynamics : (a) the AJC interaction component has a conserved excitation number operator and is exactly solvable (b) QRM dynamical space consists of a rotating frame (RF) dominated by an exactly solved Jaynes-Cummings (JC) interaction specied by a conserved JC excitation number operator which generates the U(1) symmetry of RF and a correlated counter-rotating frame (CRF) dominated by an exactly solved antiJaynes-Cummings (AJC) interaction specied by a conserved AJC excitation number operator which generates the U(1) symmetry of CRF (c) for QRM dynamical evolution in RF, the initial atom-eld state je0i is an eigenstate of the effective AJC Hamiltonian HAJC, while the effective JC Hamiltonian HJC drives this initial state je0i into a time evolving entangled state, and, in a corresponding process for QRM dynamical evolution in CRF, the initial atom-eld state jg0i is an eigenstate of the effective JC Hamiltonian, while the effective AJC Hamiltonian drives this initial state jg0i into a time evolving entangled state, thus addressing one of the long-standing challenges of theoretical and experimental QRM dynamics; consistent generalizations of the initial states je0i , jg0i to corresponding n 0 entangled eigenstates j+en i , j 􀀀g ni of the AJC in RF and JC in CRF, respectively, provides general dynamical evolution of QRM characterized by collapses and revivals in the time evolution of the atomic, eld mode, JC and AJC excitation numbers for large initial photon numbers ; the JC and AJC excitation numbers are conserved in the respective frames RF, CRF, but each evolves with time in the alternate frame.
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