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Excitable quantum systems: the bosonic avalanche laser

Published 5 Sep 2025 in quant-ph, cond-mat.mes-hall, and cond-mat.quant-gas | (2509.05290v1)

Abstract: We investigate the dynamics of a lasing system that is driven by a current of bosonic (quasi-) particles via a dissipative three-mode mixing process. A semi-classical analysis of this system predicts distinct dynamical regimes, where both the cavity mode and the gain medium can undergo lasing transitions. Of particular interest is an intermediate self-pulsing phase that exhibits the characteristics of an excitable system and converts random input signals into separated, quasi-periodic pulses at the output. By performing exact Monte-Carlo simulations, we extend this analysis into the quantum regime and show that despite being dominated by huge bosonic particle number fluctuations, this effect of coherence resonance survives even for rather low average photon numbers. Our system thus represents a intriguing model for an excitable quantum many-body system with practical relevance for quantum detectors or autonomous quantum machines. As an illustration, we discuss the realization of this system with superconducting quantum circuits and its application as a number-resolved avalanche detector for microwave photons.

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