Maksym Osmanov scite author profile

A quantum two-state system, weakly coupled to a heat bath, is traditionally studied in the Born-Markov regime under the secular approximation with completely positive linear master equations. Despite its success, this microscopic approach exclusively predicts exponential decays and Lorentzian susceptibility profiles, in disagreement with a number of experimental findings. To leave this limited paradigm, we use a phenomenological positive nonlinear master equation being both thermodynamically and statistically consistent. We find that, beyond a temperature-dependent threshold, a bifurcation in the decoherence time T 2 takes place; it gives rise to a biexponential decay and a susceptibility profile being neither Gaussian nor Lorentzian. This implies that, for suitable initial states, a major prolongation of the coherence can be obtained in agreement with recent experiments. Moreover, T 2 is no longer limited by the energy relaxation time T 1 offering novel perspectives to elaborate devices for quantum information processing.

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Open Quantum Systems Coupled to Time-Dependent Classical Environments

Osmanov

Öttinger

2013

Int J Thermophys

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Entropy-Driven Dynamics of Open Quantum Systems

Osmanov¹

2017

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Erratum: Biexponential decay and ultralong coherence of a qubit

Flakowski

Osmanov

Tománek

et al. 2016

EPL

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Maksym Osmanov

Time-driven quantum master equations and their compatibility with the fluctuation dissipation theorem

Biexponential decay and ultralong coherence of a qubit

Open Quantum Systems Coupled to Time-Dependent Classical Environments

Entropy-Driven Dynamics of Open Quantum Systems

Erratum: Biexponential decay and ultralong coherence of a qubit

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