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Analytical phase boundary of a quantum driven-dissipative Kerr oscillator from classical stochastic instantons

Published 19 Aug 2025 in quant-ph and cond-mat.stat-mech | (2508.13925v1)

Abstract: The framework of Keldysh path integral concisely describes quantum systems driven away from thermal equilibrium, such as the two-photon driven Kerr oscillator. Within the thermodynamic limit of diverging photon occupation, we map it to a Martin-Siggia-Rose-Janssen-de Dominicis path integral, and obtain a purely classical, stochastic equivalent where photon self-interaction plays the role of temperature. This perspective sheds light on the difficulties encountered in the search for an effective thermodynamic potential to describe the bistability of the model. It allows us to estimate the bistable tunneling rates using a real-time instanton technique leading to an analytical expression of the phase boundary, the first-ever to our knowledge. It opens the way to powerful semi-analytical techniques to be applied to various quantum optics models displaying bistability.

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