SNAIL-TWPA circuits form stable analogue black-white holes with quasi-normal modes that determine the ringdown timescale before nonlinear dispersion dominates.
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Nonlinear spectral detuning via a regulator U can saturate non-adiabatic parametric amplification, suppressing exponential growth toward bounded low-occupancy regimes in strongly nonlinear oscillatory systems.
A systematic review compiling theory from the complex Ginzburg-Landau equation and experiments on bound states of two or more dissipative solitons in fiber lasers, covering temporal, frequency, scalar, vector, multi-soliton, and spatiotemporal modes.
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Stability and quasi-normal ringing in analogue black-white holes in SNAIL-based traveling-wave parametric amplifiers
SNAIL-TWPA circuits form stable analogue black-white holes with quasi-normal modes that determine the ringdown timescale before nonlinear dispersion dominates.
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An Effective Scaling Framework for Non-Adiabatic Mode Dynamics
Nonlinear spectral detuning via a regulator U can saturate non-adiabatic parametric amplification, suppressing exponential growth toward bounded low-occupancy regimes in strongly nonlinear oscillatory systems.
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Bound states of solitons in fiber lasers
A systematic review compiling theory from the complex Ginzburg-Landau equation and experiments on bound states of two or more dissipative solitons in fiber lasers, covering temporal, frequency, scalar, vector, multi-soliton, and spatiotemporal modes.