EPJ Web of Conferences
Volume 103, 2015XII International Workshop on Quantum Optics (IWQO-2015)
|Number of page(s)||2|
|Published online||25 September 2015|
Entanglement Between Qubits Interacting with Thermal Field
Samara State University, 1 Academician Pavlov Str. Samara 443011 Russia
a Corresponding author: email@example.com
Published online: 25 September 2015
We have investigated the entanglement between two dipole coupled two-level artificial atoms (superconducting qubits, ion, spins etc.). The model, in which only one atom is trapped in an lossless cavity and interacts with single-mode thermal field, and the other one can be spatially moved freely outside the cavity has been carried out. We have considered the effect of the atomic coherence on the entanglement behavior. We have shown that a thermal field might cause high entanglement between the atoms both for coherent and incoherent initial atomic states only for small values of cavity mean photon number. We have also derived that the degree of entanglement is weakly dependent on the strength of dipole-dipole interaction for coherent initial states. In the considered model the atoms would get entangled even when both atoms are initially in the excited state.
Key words: entanglement / cavity QED / negativity / thermal field / atomic coherence
© Owned by the authors, published by EDP Sciences, 2015
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