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Paper detail

Gaussian trajectory approach to dissipative phase transitions: the case of quadratically driven photonic lattices

We apply the Gaussian trajectories approach to the study of the critical behavior of two-dimensional dissipative arrays of nonlinear photonic cavities, in presence of two-photon driving and in regimes of sizable loss rates. In spite of the highly mixed character of the density matrix of this system, the numerical approach is able to provide precise estimations of the steady-state expectation values, even for large lattices made of more than 100 sites. By performing a finite-size scaling of the relevant properties of the steady state, we extrapolate the behavior of the system in the thermodynamic limit and we show the emergence of a second-order dissipative phase transition, belonging to the universality class of thermal Ising model. This result indicates the occurrence of a crossover when the loss rate is increased from the weak-loss limit, in which the phase transition belongs to the universality class of the quantum Ising model

preprint2020arXivOpen access
Wouter VerstraelenRiccardo RotaVincenzo SavonaMichiel Wouters
physics.opticsquant-ph
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Wouter VerstraelenRiccardo RotaVincenzo SavonaMichiel Wouters

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