摘要
量子谐振子模型在量子光学和量子信息中具有十分重要作用,一直以来是相关领域研究的热点问题之一.在单模谐振子和双模纠缠态表象的基础上,构造了一种新的双模耦合谐振子模型.与以往报道的双模耦合谐振子不同,本文提出的模型不仅具有新耦合系数的坐标和动量两个耦合项,而且其能量本征值和波函数不需要消除耦合项便可直接求解,这简化了有关的量子计算.此外,进一步分析了双模真空态在此谐振子作用下,输出量子态的非经典特性,如正交压缩性质、相空间Q函数、粒子数空间分布和量子纠缠等.研究表明,此双模耦合谐振子对输入真空态具有很强的耗散作用.输出光场不仅呈现超泊松分布和强关联的特性,而且光子具有较高的量子纠缠度.因此,本文提出的双模耦合谐振子是成为实现连续变量量子纠缠态的典型方案之一.
Abstract
The quantum oscillator model plays a significant role in quantum optics and quantum information and has been one of the hot topics in related research fields.Inspired by the single-mode linear harmonic oscillator and the two-mode entangled state representation,we construct a two-mode coupled harmonic oscillator in this work.Different from the quantum transformation method used in previous literature,the entangled state representation is directly used in this work to solve its energy eigenvalues and eigenfunctions easily.The energy eigenvalues and eigenfunctions of this two-mode coupled harmonic oscillator are continuous compared with those of the one-mode harmonic oscillator.Using the matrix theory of quantum operators,we derive the transformation and inverse transformation of the time evolution operator corresponding to the two-mode coupled harmonic oscillator.In addition,using the entangled state representation,the specific form of the time evolution of the two-mode vacuum state under the action of the oscillator is obtained.Through the analysis of quantum fidelity,it is found that the fidelity of the output quantum state decreases with the oscillator frequency increasing,and the fidelity eventually tends to zero with the increase of time.When analyzing the orthogonal squeezing properties of the output quantum state,this type of two-mode oscillator does not have the orthogonal squeezing effect,but it has a strong quantum dissipation effect instead.This conclusion is further verified by the quasi-probability distribution Q function of the quantum state phase space.Therefore,the two-mode coupled harmonic oscillator has a major reference value in quantum control such as quantum decoherence and quantum information transmission.Like the two-mode squeezed vacuum state,the photon distribution of the output quantum light field corresponding to the two-mode harmonic oscillator presents a super-Poisson distribution,and the photons exhibit a strong anti-bunching effect.Using the three-dimensional discrete plot of the photon number distribution,the super-Poisson distribution and quantum dissipation effect of the output quantum state are intuitively demonstrated.Finally,the SV,which is an entanglement criterion,is used to determine that the output quantum state has a high degree of entanglement.Further numerical analysis shows that the degree of entanglement increases with the action time and the oscillator frequency.In summary,the two-mode coupled harmonic oscillator constructed in this work can be used to prepare highly entangled quantum states through a complete quantum dissipation process.This provides theoretical support for experimental preparing quantum entangled states based on dissipative mechanisms.
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