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Paper detail

Real-time dynamics of open quantum spin systems driven by dissipative processes

We study the real-time evolution of large open quantum spin systems in two spatial dimensions, whose dynamics is entirely driven by a dissipative coupling to the environment. We consider different dissipative processes and investigate the real-time evolution from an ordered phase of the Heisenberg or XY-model towards a disordered phase at late times, disregarding unitary Hamiltonian dynamics. The corresponding Kossakowski-Lindblad equation is solved via an efficient cluster algorithm. We find that the symmetry of the dissipative process determines the time scales which govern the approach towards a new equilibrium phase at late times. Most notably, we find a slow equilibration if the dissipative process conserves any of the magnetization Fourier modes. In these cases, the dynamics can be interpreted as a diffusion process of the conserved quantity.

preprint2015arXivOpen access
Florian HebenstreitDebasish BanerjeeManes HornungFu-Jiun JiangFranziska SchranzUwe-Jens Wiese
cond-mat.str-elhep-latquant-ph
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Florian HebenstreitDebasish BanerjeeManes HornungFu-Jiun JiangFranziska SchranzUwe-Jens Wiese

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