I. O. Barinov scite author profile

I. O. Barinov

5Publications

85Citation Statements Received

162Citation Statements Given

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161

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Vladimir State University

Publications

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Strongly localized polaritons in an array of trapped two-level atoms interacting with a light field

Alodjants¹,

Barinov²,

Аракелян³

2010

J. Phys. B: At. Mol. Opt. Phys.

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We propose a new type of spatially periodic structure, i.e. polaritonic crystal (PolC), to observe a "slow"/"stopped" light phenomenon due to coupled atom-field states (polaritons) in a lattice. Under the tightbinding approximation, such a system realizes an array of weakly coupled trapped two-component atomic ensembles interacting with optical field in a tunnel-coupled one dimensional cavity array. We have shown that the phase transition to the superfluid Bardeen-Cooper-Schrieffer state, a so-called (BCS)-type state of low branch polaritons, occurs under the strong coupling condition. Such a transition results in the appearance of a macroscopic polarization of the atomic medium at non-zero frequency. The principal result is that the group velocity of polaritons depends essentially on the order parameter of the system, i.e. on the average photon number in the cavity array.

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Excitation of coherent polaritons in a two-dimensional atomic lattice

Barinov¹,

Alodjants²,

Аракелян³

2009

Quantum Electron.

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We describe a new type of spatially periodic structure (lattice models): a polaritonic crystal (PolC) formed by a two-dimensional lattice of trapped two-level atoms interacting with quantised electromagnetic field in a cavity (or in a one-dimensional array of tunnelling-coupled microcavities), which allows polaritons to be fully localised. Using a one-dimensional polaritonic crystal as an example, we analyse conditions for quantum degeneracy of a low-branch polariton gas and those for quantum optical information recording and storage.

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Quantum optics with atomic polaritons

Sedov

Chestnov

Barinov

et al. 2012

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The interaction of a two-level atomic ensemble with a quantized single mode electromagnetic field in the presence of optical collisions is theoretically investigated. The main accent is made on achieving thermal equilibrium for coupled atom-light states (in particular dressed states). We propose a model of atomic dressed state thermalization that accounts for the evolution of the pseudo-spin Bloch vector components and characterize the essential role of the spontaneous emission rate in the thermalization process. Our model shows that the time of thermalization of the coupled atom-light states strictly depends on the ratio of the detuning and the resonant Rabi frequency. The predicted time of thermalization is in the nanosecond domain and about ten times shorter than the natural lifetime of rubidium D-lines.

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Dynamic amplification and generation of entangled polaritons in doped media

2012

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Generation of entangled polaritons in doped media

Barinov

Prokhorov

Аракелян

2013

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We developed a semiclassical theory of polariton excitations for the  -scheme of interaction realized in an yttrium orthosilicate crystal doped with Pr 59 atoms. The threshold optical pump power for efficient amplification of the probefield polaritons in a medium consisting of three-level atoms is determined. At the near-threshold conditions in the system the appearance of strong non-classical correlations (entanglement) between light and dark polaritons, similar to generation of biphotons in optics is predicted.

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I. O. Barinov

Strongly localized polaritons in an array of trapped two-level atoms interacting with a light field

Excitation of coherent polaritons in a two-dimensional atomic lattice

Quantum optics with atomic polaritons

Dynamic amplification and generation of entangled polaritons in doped media

Generation of entangled polaritons in doped media

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