Dual noise-like pulse and soliton operation of a fiber ring cavity

Passively mode-locked fiber lasers (PML-FLs) are versatile sources that are capable of generating a broad variety of short and ultrashort optical pulses. Besides conservative solitons, PML-FLs allow the generation of different kinds of dissipative structures, usually called dissipative solitons, a concept that also encompasses more complex structures and collective behaviors such as soliton molecules, gas, rain of solitons, etc. In addition to this, PML-FLs are also able to generate even more complex objects, the so-called noise-like pulses (NLPs). A few recent research results revealed a connection between NLPs and solitons, a sign that deterministic ingredients enter into the composition of NLPs, whose nature is traditionally assumed to be random. Although it is usual that a fiber laser is able to generate either solitons or noise-like pulses, depending on pump power and adjustments in the cavity, these two regimes are rarely observed simultaneously. In this paper, a PML-FL in a ring configuration is presented, in which it is possible to observe and verify experimentally the simultaneous presence of NLPs and solitons. Interestingly, these two components are found in different spectral regions, which greatly facilitates their separation and individual study and characterization. © 2017 IOP Publishing Ltd.

birefringent Sagnac filter; noise-like pulses; passively mode-locked fiber lasers; soliton Fiber lasers; Fibers; Mode-locked fiber lasers; Optical pumping; Passive mode locking; Collective behavior; Dissipative solitons; Dissipative structure; noise-like pulses; Passively mode-locked fiber lasers; Sagnac filter; Soliton molecules; Ultrashort optical pulse; Solitons

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