Field Squeezing in a Quantum-Dot Molecule Jaynes-Cummings Model | Zendy

Xu Chu | Zendy; Xiao-Dong Ma | Zendy; Ying Wang | Zendy; Qingchun Zhou | Zendy; Yu Zhou | Zendy

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Field Squeezing in a Quantum-Dot Molecule Jaynes-Cummings Model

Author(s) -

Xu Chu,

Xiao-Dong Ma,

Ying Wang,

Qingchun Zhou,

Yu Zhou

Publication year - 2014

Publication title -

advances in optics

Language(s) - English

Resource type - Journals

eISSN - 2356-6817

pISSN - 2314-7741

DOI - 10.1155/2014/395836

Subject(s) - physics , quantum tunnelling , field (mathematics) , quantum dot , quantum mechanics , photon , jaynes–cummings model , quantum , electron , condensed matter physics , quantum electrodynamics , mathematics , pure mathematics

We investigate the field squeezing in a system composed of an initial coherent field interacting with two quantum dots coupled by electron tunneling. An approximate quantum-dot molecule Jaynes-Cummings model describing the system is given, and the effects of physical quantities, such as the temperature, phonon-electron interaction, mean photon number, field detuning, and tunneling-level detuning, are discussed in detail

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