Quantum entanglement between the two-mode fields and atomic entropy squeezing in the system of a moving atom interacting with two-mode entangled coherent field
Zou Yan(邹艳)† and Li Yong-Ping(李永平)
Department of Physics, Dezhou University, Dezhou 253023, China Key Biophysics Laboratory in Universities of Shandong, Dezhou 253023, China
Abstract This paper investigates the entropy squeezing of a moving two-level atom interacting with the two-mode entangled coherent field via two-photon transition by using an entropic uncertainty relation and the degree of entanglement between the two-mode fields by using quantum relative entropy. The results obtained from numerical calculation indicate that the squeezed period, the duration of entropy squeezing and the maximal squeezing can be controlled by appropriately choosing the intensity of the light field, the atomic motion and the field-mode structure. The atomic motion leads to the periodic recovery of the initial maximal degree of entanglement between the two-mode fields. Moreover, there exists a corresponding relation between the time evolution properties of the atomic entropy squeezing and those of the entanglement between the two-mode fields.
Received: 03 December 2008
Revised: 17 January 2009
Accepted manuscript online:
(Strong-field excitation of optical transitions in quantum systems; multiphoton processes; dynamic Stark shift)
Fund: Project supported by the Scientific
and Technological Program Foundation of Dezhou, Shandong Province of
China (Grant No 20080153) and the
Scientific Research Fund of Dezhou University of China (Grant No 07024).
Cite this article:
Zou Yan(邹艳) and Li Yong-Ping(李永平) Quantum entanglement between the two-mode fields and atomic entropy squeezing in the system of a moving atom interacting with two-mode entangled coherent field 2009 Chin. Phys. B 18 2794
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