V. G. Morozov scite author profile

We study a model of dephasing (decoherence) in a two-state quantum system (qubit) coupled to a bath of harmonic oscillators. An exact analytic solution for the reduced dynamics of a two-state system in this model has been obtained previously for factorizing initial states of the combined system. We show that the model admits exact solutions for a large class of correlated initial states which are typical in the theory of quantum measurements. We derive exact expressions for the off-diagonal elements of the qubit density matrix, which hold for an arbitrary strength of coupling between the qubit and the bath. The influence of initial correlations on decoherence is considered for different bath spectral densities. Time behavior of the qubit entropy in the decoherence process is discussed.

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Statistical mechanics of nonlinear hydrodynamic fluctuations

Zubarev

Morozov

1983

Physica A: Statistical Mechanics and its Applications

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Kinetic equations for dense gases and liquids

Zubarev¹,

Morozov²,

Omelyan³

et al. 1991

Theor Math Phys

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Unification of the kinetic and hydrodynamic approaches in the theory of dense gases and liquids

Zubarev¹,

Morozov²,

Omelyan³

et al. 1993

Theor Math Phys

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Formulation of boundary conditions for the BBGKY hierarchy with allowance for local conservation laws

Zubarev¹,

Morozov²

1984

Theor Math Phys

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V. G. Morozov

Decoherence in an exactly solvable qubit model with initial qubit-environment correlations

Statistical mechanics of nonlinear hydrodynamic fluctuations

Kinetic equations for dense gases and liquids

Unification of the kinetic and hydrodynamic approaches in the theory of dense gases and liquids

Formulation of boundary conditions for the BBGKY hierarchy with allowance for local conservation laws

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