Add to ORKGWe analyze the transition from passive mode locking into the novel modulational-instability regime of erbium-doped fiber lasers. By including in the cavity an anisotropic loss, we observed, depending on the polarization setting, the generation of either single pulses as short as 435 fs or a continuous-wave train of 3.5-ps-long solitons at a repetition rate of 76 GHz. Even with no anisotropic losses in the cavity, soliton trains at a repetition rate of as high as 130 GHz were still observed. We believe that this is the first observation of a self-induced modulational-instability laser
The soliton formation and evolution are numerically and experimentally investigated in passively-mod...
The modulation and multimode instabilities are the main mechanisms which drive spontaneous spatial a...
Several unusual pulsing modes are observed in a selfstarting, passively mode-locked erbium fibre sol...
Modulation instability is the well-known tendency in anomalous dispersion fibres for small variation...
We report on the experimental evidences of cavity-assisted modulation instability (CAMI) lasing of f...
Modulational instability with sideband generation is experimentally observed in a passively mode-loc...
Experimental observation of the 1D Kerr-Type cavity solitonTemporal cavity solitons constitute a rem...
Thanks to a passive cavity configuration, modulational instability in fibers is successfully observe...
We report the experimental observation of self-induced modulation instability (MI) in a Brillouin fi...
We experimentally observed two forms of subsideband generation in the soliton spectrum of a passivel...
Modulation instabilities discovered more than fifty and hundred fifty years ago created since then a...
We have employed a nonlinear polarization rotation technique to realize the self-starting passive mo...
A passively mode-locked erbium-doped fiber laser incorporates an intra-cavity electrooptic phase mod...
A full characterization of a self-starting, passively mode-locked soliton ring fiber laser in terms ...
Due to their compact structure, convenient collimation, flexible design, and improving pulse intensi...
The soliton formation and evolution are numerically and experimentally investigated in passively-mod...
The modulation and multimode instabilities are the main mechanisms which drive spontaneous spatial a...
Several unusual pulsing modes are observed in a selfstarting, passively mode-locked erbium fibre sol...
Modulation instability is the well-known tendency in anomalous dispersion fibres for small variation...
We report on the experimental evidences of cavity-assisted modulation instability (CAMI) lasing of f...
Modulational instability with sideband generation is experimentally observed in a passively mode-loc...
Experimental observation of the 1D Kerr-Type cavity solitonTemporal cavity solitons constitute a rem...
Thanks to a passive cavity configuration, modulational instability in fibers is successfully observe...
We report the experimental observation of self-induced modulation instability (MI) in a Brillouin fi...
We experimentally observed two forms of subsideband generation in the soliton spectrum of a passivel...
Modulation instabilities discovered more than fifty and hundred fifty years ago created since then a...
We have employed a nonlinear polarization rotation technique to realize the self-starting passive mo...
A passively mode-locked erbium-doped fiber laser incorporates an intra-cavity electrooptic phase mod...
A full characterization of a self-starting, passively mode-locked soliton ring fiber laser in terms ...
Due to their compact structure, convenient collimation, flexible design, and improving pulse intensi...
The soliton formation and evolution are numerically and experimentally investigated in passively-mod...
The modulation and multimode instabilities are the main mechanisms which drive spontaneous spatial a...
Several unusual pulsing modes are observed in a selfstarting, passively mode-locked erbium fibre sol...