An external coherent phase-locking drive opens a gap in the dispersion of collective excitations in a driven-dissipative condensate and reveals regions of finite-wavevector dynamical instability in the phase diagram.
Adler, A study of locking phenomena in oscillators, Proceedings of the IRE34, 351 (1946)
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Continuous heterodyne measurement reveals apparent quantum limit cycles in the van der Pol oscillator and two-level systems, showing similarity to classical limit cycles with noise and linking synchronization measures to experimentally accessible quantities.
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Opening a gap in the dispersion of the collective excitations of a driven-dissipative condensate subject to an external coherent drive
An external coherent phase-locking drive opens a gap in the dispersion of collective excitations in a driven-dissipative condensate and reveals regions of finite-wavevector dynamical instability in the phase diagram.
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Quantum limit cycles and synchronization from a measurement perspective
Continuous heterodyne measurement reveals apparent quantum limit cycles in the van der Pol oscillator and two-level systems, showing similarity to classical limit cycles with noise and linking synchronization measures to experimentally accessible quantities.