Interaction of the Light Field with N Atoms Possessing Dipole-dipole Interaction

The interaction of the light field with two-level atoms possessing dipole-dipole interaction is studied. It is shown that a light field at coherent state can produce a squeezed atom laser.     

Interaction of the Light Field with N Atoms Possessing Dipole-dipole Interaction

1　Ｉｎｔｒｏｄｕｃｔｉｏｎ　　Ｉｎｔｈｅｆｉｅｌｄｏｆａｔｏｍｏｐｔｉｃｓ,ｂｒｅａｋｔｈｒｏｕｇｈｓｉｎｔｈｅｅｖａｐｏｒａｔｉｖｅｃｏｏｌｉｎｇｏｆｄｉｌｕｔｅａｌｋａｌｉｇａｓｅｓｈａｖｅａｌｌｏｗｅｄｔｈｅｇｅｎｅｒａｔｉｏｎｏｆＢｏｓｅ Ｅｉｎｓｔｅｉｎｃｏｎｄｅｎｓａｔｅｓ(ＢＥＣ) [1,2 ] .Ｓｉｎｃｅｔｈｅｎ ,ｔｈｅｒｅｈａｖｅｂｅｅｎｍａｎｙｉｎｔｅｒｅｓｔｓｉｎｃｒｅａｔｉｎｇａｎａｔｏｍｌａｓｅｒａｎｄｅｘｐｌｏｒｉｎｇｉｔｓｎｏｖｅｌｐｒｏｐｅｒｔｉｅｓ[3 ] .Ｔｈｅｆｉｒｓｔａ…     

V型三能级原子与非经典光场作用中光场特性的变化

研究了V型三能级原子BEC与双模压缩光场相互作用系统中,忽略原子间相互作用和考虑原子间相互作用时光场的正交压缩和光子数压缩。结果表明,光场的正交压缩依赖于压缩参数,而光子数压缩与压缩参数、光场信号强度有关,在一定条件下,两种压缩可同时存在。原子间相互作用影响两种压缩的涨落随时间变化的周期,以及正交分量涨落随时间变化的幅度,而对光子数压缩涨落随时间变化的幅度几乎无影响。     

耦合三能级原子与光场相互作用中系统的动力学行为

讨论了包含两个全同的三能级原子之间偶极矩相互作用的Jaynes-Cummings模型，并就Λ，Ξ和V三种能级构型建立了系统的动力学方程，特别在能级简并情况下讨论了具有Λ型能级的两个原子之间偶极相互作用及原子的初态和系统的失谐量对光场的统计性质和原子行为的影响。     

双模压缩真空场与二能级原子相互作用系统中光场的压缩特性

研究了双模压缩真空场与二能级原子双光子跃迁相互作用系统中光场的压缩特性及虚光了过程对光场压缩特性的影响。数值计算结果表明,光场呈现出周期性压缩现象,而虚光子过程则对光场的压缩有抑制作用并产生了量子噪声,光场的压缩与系统初始状态及本身性质密切相关。     

原子间相互作用对双模原子激光压缩性质的影响

研究了由单模压缩相干态光场与Ξ型三能级原子玻色爱因斯坦凝聚体(BEC)相互作用系统中耦合输出的双模原子激光的压缩特性,重点讨论了玻色爱因斯坦凝聚体原子间相互作用对原子激光压缩性质的影响,并讨论了原子激光压缩对光场初始压缩因子的依赖关系。结果表明:由光场诱导的双模原子激光呈现周期性的压缩,原子间的相互作用和光场初始压缩因子对原子的压缩性质具有重要影响。原子间的相互作用影响原子激光压缩的振荡频率而不会影响其压缩深度,而初始光场的压缩因子则对原子激光压缩深度产生调制作用,且初始光场的压缩因子越大,则原子激光压缩的时间越短。     

单模辐射场与N个原子相互作用理论

用玻色算符的三维型哈密顿量描述单模辐射场与Ｎ个两能级原子的相互作用。在原子系统处于低能态。光子数很大的初始条件下，得到了作用系统的动力学变化规律。     

虚光场效应对原子激光压缩性质的影响

在压缩真空态光场和二能级原子玻色-爱因斯坦凝聚体相互作用系统中, 应用全量子理论, 分别在旋波近似和非旋波近似下, 研究了原子激光的压缩特性以及原子本征频率、光场-原子的耦合系数、光场初始压缩因子以及虚光场对原子激光压缩特性的影响. 研究表明,原子激光的两个正交分量均可被周期性压缩,原子的本征频率决定了原子激光两个正交分量涨落的量子Rabi频率,光场与原子的耦合系数决定了原子激光正交分量涨落的崩塌-回复振荡频率,当光场初始压缩因子增大和考虑虚光场效应时,原子激光正交分量的压缩深度均加深. 关键词： 玻色-爱因斯坦凝聚 压缩真空态 原子激光 虚光场效应     

Generating Even-Photon State via Resonant Interaction Between Ladder-Type Three-Level Atoms with a Single-Mode Field

A scheme is presented to generate even-photon state based on resonant interaction between ladder-type three-level atoms with a single-mode field. In the scheme, a sequence of suitably prepared ladder-type three-level atoms are orderly sent through a single-mode cavity initiaJly in vacuum state. The detection of a J1 the atoms in the ground states collapses the cavity to the desired state. The scheme is based on the resonant interaction of atoms with the cavity, and thus the required interaction time can be greatly shortened. This is important in view of decoherence.     

虚光场对克尔介质中受激原子统计性质的影响

研究了类克尔介质中虚光场效应对受激三能级了的光子统计演化性质的影响。结果表明：虚光场效应导致了受激辐射场的光子统计演化中出现的量子噪声,量子噪声随光场频率的增大而减小,当增大到一定值时,量子噪声几乎消失,原子－场耦合系数的增加使光子统计演化的拉比振荡的振幅加大、频率变快;而介质－场耦合系数的增加使光子统计演化拉比振荡的振幅变小、频率变慢。     

与非等同双原子相互作用下光场的量子特性

研究了具有不同偶极矩的两个原子与双模压缩真空场相互作用系统中光场的量子特性.讨论了两个原子与双模压缩真空场的相对耦合常数(R=g1/g2)和光场的初始压缩因子r对光场的压缩效应和光子的聚束与反聚束效应的影响.数值计算结果表明,光场量子涨落的震荡幅度、最大压缩深度、压缩时间及二阶相干度的震荡振幅与光场的初始压缩因子r的大小有关.两原子与双模光场的相对耦合常数R影响着光场量子涨落和二阶相干度的震荡规律,因而也影响着压缩时间、光场处于非经典态的时间及光子的反聚束程度,但对光场的压缩深度无明显影响.     

克尔介质中"耦合双原子-场"模型的光场压缩效应

利用全量子理论，研究克尔介质中耦合二能级双原子与场相互作用的压缩效应，着重讨论了克尔介质对光场压缩效应的影响，并揭示了初始场强及原子间耦合系数的变化与光场压缩效应的关系。     

Rabi模型的光场压缩

电路量子电动力学的实验实现了光与人造原子的超强耦合相互作用, 相互作用强度与光场频率在同一个数量级.在超强耦合区域, 著名的旋波近似失效, 因此系统的动力学必须用含有反旋波项的Rabi模型描述.本文研究Rabi模型中的光场压缩.数值模拟结果发现, 光场压缩不是随耦合强度线性增加, 而是在合适的超强区域获得最大值.同时, 我们还发现, 较小的反旋波项有助于提高光场压缩.所得结果有利于实验上在超强区域中制备所需的压缩态. 关键词： Rabi模型 超强耦合 光场压缩     

Virtual Photon Effects on Chaos in Generalized Lorenz-Haken Equation

The dynamics of an ensemble of two-level atoms injected into a single-mode cavity is studied in the exact atom-field interaction situation, in which the counter-rotating terms describing the so-called virtual photon processes neglected in the rotating-wave approximation, are considered. The cavity mode is driven by the injected classical field,and the atom is prepared in a coherent superposition of the two levels. We first derive the generalized Lorenz-Haken equation by using the technique of quantum Langevin equation, and then numerically study the dynamics of this equation.We find that the virtual photon processes have strong effects on the dynamics, which can cause the trajectory in phase space of strange attractor spiral around four focus points, and the trajectory is modulated by virtual photon processes.The chaos region in parameter space is now enlarged. It should be stressed that the strange attractor can exist in optical bistability, and whether the atomic coherences and classical field can inhibit chaos depends on the laser frequency.     

三次谐波系统在混沌状态下光场的统计特性

数值分析了三次谐波系统在混沌状态下光场的统计特性。三次谐波混沌状态下光场统计服从超泊松分布,谐波光场涨落皆大于基波光场涨落,这种光场涨落随系统最大李亚普诺夫指数增大而无规律地发生起伏变化。     

Virtual Photon Effects on Chaos in Generalized Lorenz-Haken Equation

The dynamics of an ensemble of two-level atoms injected into a single-mode cavity is studied in the exact atom-field interaction situation, in which the counter-rotating terms describing the so-called virtual photon processes neglected in the rotating-wave approximation, are considered. The cavity mode is driven by the injected classical field,and the atom is prepared in a coherent superposition of the two levels. We first derive the generalized Lorenz-Haken equation by using the technique of quantum Langevin equation, and then numerically study the dynamics of this equation.We find that the virtual photon processes have strong effects on the dynamics, which can cause the trajectory in phase space of strange attractor spiral around four focus points, and the trajectory is modulated by virtual photon processes.The chaos region in parameter space is now enlarged. It should be stressed that the strange attractor can exist in optical bistability, and whether the atomic coherences and classical field can inhibit chaos depends on the laser frequency.     

Imaginary Photon Field Effect in the Interaction System of Multi-atom with Single-mode Photon Field

By using the Lewis–Riesenfeld invariant theory, we have studied the dynamical and the geometric phases in the interaction system of multi-atom with single-mode photon field with imaginary photon process. We find that the geometric phases in a cycle case have nothing to do with the frequency of the photon field, the coupling coefficient between photons and atoms, and the atom transition frequency. If we use the more accuracy device, the geometric phases in the imaginary photon process may be observed, and the geometric phases in this process have the observable physical effect.     

依赖于时间的光场与四能级原子的相互作用

研究了依赖于时间的单模光场与N 型四能级原子的相互作用系统,分析了原子布居的时间演化特性.结果表明,由于受到时间脉冲的调制,原子粒子数布居最后会处于一个稳定的状态.     

Influence of the virtual photon field on the squeezing properties of atom laser

This paper investigates the squeezing properties of an atom laser without rotating-wave approximation in the system of a binomial states field interacting with a two-level atomic Bose--Einstein condensate. It discusses the influences of atomic eigenfrequency, the interaction intensity between the optical field and atoms,parameter of the binomial states field and virtual photon field on the squeezing properties. The results show that two quadrature components of an atom laser can be squeezed periodically. The duration and the degree of squeezing an atom laser have something to do with the atomic eigenfrequency and the parameter of the binomial states field, respectively. The collapse and revival frequency of atom laser fluctuation depends on the interaction intensity between the optical field and atoms. The effect of the virtual photon field deepens the depth of squeezing an atom laser.     

利用虚光子康普顿散射对同步辐射和回旋辐射的研究

从虚光子的康普顿散射出发,提出了一个同步辐射理论,其波长的计算结果与实验数据很吻合,该理论同时还解释了同步辐射的方向性和宽广的连续光谱等问题,并且当粒子的能量不大时,由该理论可以推出回旋辐射理论