R. Daneshmand scite author profile

R. Daneshmand

4Publications

28Citation Statements Received

82Citation Statements Given

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Islamic Azad University, Estahban Branch, Yazd University

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Generation ofSU(1, 1) andSU(2) entangled states in a quantized cavity field by strong-driving-assisted classical field approach

Daneshmand¹,

Tavassoly²

2015

Laser Phys.

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Following the approach of Solano et al (2003 Phys. Rev. Lett. 90 027903) we propose a scheme for a generation of a few classes of entangled (nonlinear) coherent states. To achieve this purpose, the interaction of a spatially narrow collection of two-level atoms with a quantized field in a high-Q factor cavity in the presence of a strong-driving classical field is studied. We perform appropriate Hamiltonians describing the atom-field interaction by focusing on two particular forms of intensity-dependent functions which are directly related to su(1, 1) and su(2) Lie algebras. It is shown that the dynamical evolution of the considered systems can generate bipartite, tripartite (nonlinear) and more complicated entangled states corresponding to the mentioned groups depending on the number of atoms in the cavity. In the processes of the abovementioned generation schemes, even and odd nonlinear coherent states are produced. In the end, in a particular circumstance with the two-mode quantized field we can turn easily from Jaynes-Cummings to anti-Jaynes-Cummings interactions which brings us to the maximally entangled number state. Finally, to quantify the degree of entanglement of the produced states, the measures of von Neumann and linear entropies are applied.

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Entanglement Dynamics of Linear and Nonlinear Interaction of Two Two-Level Atoms with a Quantized Phase-Damped Field in the Dispersive Regime

2018

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The effects of damping on the approximate teleportation and nonclassical properties in the atom-field interaction

Daneshmand

Tavassoly

2016

Eur. Phys. J. D

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Description of Atom-Field Interaction via Quantized Caldirola-Kanai Hamiltonian

Daneshmand

Tavassoly

2017

Int J Theor Phys

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R. Daneshmand

Generation ofSU(1, 1) andSU(2) entangled states in a quantized cavity field by strong-driving-assisted classical field approach

Entanglement Dynamics of Linear and Nonlinear Interaction of Two Two-Level Atoms with a Quantized Phase-Damped Field in the Dispersive Regime

The effects of damping on the approximate teleportation and nonclassical properties in the atom-field interaction

Description of Atom-Field Interaction via Quantized Caldirola-Kanai Hamiltonian

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