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Coherent state description of the ground state in the Tavis–Cummings model and its quantum phase transitions

2009; IOP Publishing; Volume: 79; Issue: 6 Linguagem: Inglês

10.1088/0031-8949/79/06/065405

1402-4896

Octavio Castaños, Ramón López–Peña, Eduardo Nahmad-Achar, Jorge G. Hirsch, Enrique López‐Moreno, Javier E. Vitela,

Quantum Mechanics and Applications

Quantum phase transitions and observables of interest of the ground state in the Tavis–Cummings model are analyzed, for any number of atoms, by using a tensorial product of coherent states. It is found that this 'trial' state constitutes a very good approximation to the exact quantum solution, in that it globally reproduces the expectation values of the matter and field observables. These include the population and dipole moments of the two-level atoms and the squeezing parameter. Agreement in the field–matter entanglement and in the fidelity measures, of interest in quantum information theory, is also found. The analysis is carried out in all three regions defined by the separatrix, which gives rise to the quantum phase transitions. It is argued that this agreement is due to the Gaussian structure of the probability distributions of the constant of motion and the number of photons. The expectation values of the ground state observables are given in analytic form, and the change of the ground state structure of the system when the separatrix is crossed is also studied.