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arxiv: 1606.00452 · v2 · pith:QQ5CLMJVnew · submitted 2016-06-01 · ❄️ cond-mat.quant-gas · cond-mat.stat-mech

Quantum dynamical field theory for non-equilibrium phase transitions in driven open systems

classification ❄️ cond-mat.quant-gas cond-mat.stat-mech
keywords quantumdrivendynamicaldimensionalfieldnoiseopenphase
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We develop a quantum dynamical field theory for studying phase transitions in driven open systems coupled to Markovian noise, where non-linear noise effects and fluctuations beyond semiclassical approximations influence the critical behaviour. We systematically compare the diagrammatics, the properties of the renormalization group flow and the structure of the fixed points, of the novel quantum dynamical field theory and of its semi-classical counterpart, which is employed to characterise dynamical criticality in three dimensional driven-dissipative condensates. As an application, we perform the Keldysh Functional Renormalization of a one dimensional driven open Bose gas, where a tailored diffusion Markov noise realises an analog of quantum criticality for driven-dissipative condensation. We find that the associated non-equilibrium quantum phase transition does not map into the critical behaviour of its three dimensional classical driven counterpart.

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    Derives universal scaling c_n ~ τ_Q^{-α_n} for work cumulant densities in driven critical O(N) models from RG flow of composite operators, with α_n = p(d+nz)ν/(1+pzν) for isolated quantum systems and α_n = pdν/(1+pzν)...