The role of thermal and squeezed photons in the entanglement dynamics of the double Jaynes-Cummings model

• URL: http://arxiv.org/abs/2310.13918v2
• Date: Fri, 22 Mar 2024 05:08:32 GMT
• Title: The role of thermal and squeezed photons in the entanglement dynamics of the double Jaynes-Cummings model
• Authors: Koushik Mandal, Chandrashekar Radhakrishnan, M. V. Satyanarayana,
• Abstract summary: The effects of squeezed photons and thermal photons on the entanglement dynamics of atom-atom, atom-field and field-field subsystems are studied. We show that new entanglements are created in this atom-field system by introducing Ising-type interaction between the two atoms.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The effects of squeezed photons and thermal photons on the entanglement dynamics of atom-atom, atom-field and field-field subsystems are studied for the double Jaynes-Cummings model. For this purpose, squeezed coherent states and Glauber-Lachs states of radiation are chosen as field states. For the atomic states, we choose one of the Bell state as pure state and a Werner-type state as mixed state. Werner-type state is used to understand the effects of mixedness on entanglement. To measure the entanglement between the two atoms, Wootters' concurrence is used; whereas for the atom-field and field-field subsystems, negativity is chosen. The squeezed photons and thermal photons create, destroy and transfer entanglement within various subsystems. Also, the addition of squeezed photons and thermal photons either lengthens or shortens the duration of entanglement sudden deaths (ESD) associated with atom-atom, atom-field and field-field entanglement dynamics in a complementary way. The effects of Ising-type interaction, detuning and Kerr-nonlinearity on the entanglement dynamics are studied. Each of these interactions removes the ESDs associated with various subsystems. We show that new entanglements are created in this atom-field system by introducing Ising-type interaction between the two atoms. With proper choice of the parameters corresponding to Ising-type interaction, detuning and Kerr-nonliearity, entanglement can be transferred among various subsystems.

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