Driven Dissipative Soliton Resonance
Abstract: We investigate the enhancement of the dissipative soliton energy scalability by the injection of a low-power single-mode seed synchronized with a chirped-pulse oscillator round-trip. It is demonstrated that a threshold-like transition to multiple-pulse generation limits the maximum energies of dissipative solitons, in agreement with the thermodynamic interpretation of a strongly chirped pulse stability. We show that there are islands'' of instability within a stability range of energies which result from stochastic resonance betweeninternal modes'' of soliton and quantum noise of the basin''. The transition to multiple-pulsing can be suppressed in a system driven by a comparatively low-power seed. However, seed power growth increases the mode-locking energy threshold and producesislands'' of instability as the dissipative soliton energy rises.
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