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Paper detail

Universality in dissipative Landau-Zener transitions

We introduce a random variable approach to investigate the dynamics of a dissipative two-state system. Based on an exact functional integral description, our method reformulates the problem as that of the time evolution of a quantum state vector subject to a Hamiltonian containing random noise fields. This numerically exact, non-perturbative formalism is particularly well suited in the context of time-dependent Hamiltonians, both at zero and finite temperature. As an important example, we consider the renowned Landau-Zener problem in the presence of an Ohmic environment with a large cutoff frequency at finite temperature. We investigate the 'scaling' limit of the problem at intermediate times, where the decay of the upper spin state population is universal. Such a dissipative situation may be implemented using a cold-atom bosonic setup.

preprint2010arXivOpen access
Peter P. OrthAdilet ImambekovKaryn Le Hur
cond-mat.othercond-mat.quant-gasquant-ph
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Peter P. OrthAdilet ImambekovKaryn Le Hur

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