摘要
The eigenenergy spectrum of the Jaynes-Cummings (JC) model with and without the rotating-wave approx- imation (RWA) is investigated. The numerical analysis indicates that the non-RWA spectrum can only be approximated by the RWA in the range of sufficiently small coupling constant and detuning. In other region, the counter-rotating terms remarkably change the nature of the RWA energy spectrum. A simple expression with high accuracy for ground eigenenergy and eigenvector non-RWA shows that the ground state is not a dark state state. for non-RWA is available. The ground eigenvector for and very different from that of RWA which is a dark state.
The eigenenergy spectrum of the Jaynes-Cummings (JC) model with and without the rotating-wave approx- imation (RWA) is investigated. The numerical analysis indicates that the non-RWA spectrum can only be approximated by the RWA in the range of sufficiently small coupling constant and detuning. In other region, the counter-rotating terms remarkably change the nature of the RWA energy spectrum. A simple expression with high accuracy for ground eigenenergy and eigenvector non-RWA shows that the ground state is not a dark state state. for non-RWA is available. The ground eigenvector for and very different from that of RWA which is a dark state.
基金
Supported by the Research Fund of Southwest University of Science and Technology under Grant No 06ZX7113, and the National Natural Science Foundation of China under Grant Nos 10876032 and 10875099.
