Add to ORKGThe effect of Raman self-frequency shift on the dynamics of a passively mode-locked fibre laser containing a long period grating is studied numerically. Focus is paid to the affect on the pulse generation and evolution
Active mode-locking of Raman fiber laser is experimentally investigated for the first time. An all f...
A novel fibre ring laser architecture reliant on the use of Raman-assisted nonlinearity management o...
Pulses in fibers establish analogs of the event horizon [Philbin et al., Science 319, 1367 (2008)]. ...
We report on a numerical investigation of the effect of self-steepening on the dynamics of a passive...
Bound dissipative solitons are numerically studied by implementing strong Raman self-frequency shift...
Recent experiments have shown that the simple addition of a length of Raman-shifting fibre in the ca...
Session - Mode-locked Fiber Lasers I (STu1P): Paper no. STu1P.5CLEO: Science and Innovations 2016We ...
We measure the Raman self-frequency shift of temporal cavity solitons over one free spectral range o...
Temporal dynamics of Raman fibre lasers tend to have very complex nature, owing to great cavity leng...
Measurements on the jitter of mode-locked pulses of a Nd:YLF laser after travelling through an optic...
This thesis examines a number of passively and actively mode-locked fibre laser devices. The passive...
We study soliton self-frequency shift initiated by an Airy pulse in an optical fiber. The asymmetric...
By utilising a CW mode-locked Nd:YAG pump laser an experimental study of self-phase modulation (SPM)...
We examine the effects of stimulated Raman scattering on ultra-short pulses propagating in optical f...
International audienceWe review recent progress in the research on nonlinear mechanisms of pulse gen...
Active mode-locking of Raman fiber laser is experimentally investigated for the first time. An all f...
A novel fibre ring laser architecture reliant on the use of Raman-assisted nonlinearity management o...
Pulses in fibers establish analogs of the event horizon [Philbin et al., Science 319, 1367 (2008)]. ...
We report on a numerical investigation of the effect of self-steepening on the dynamics of a passive...
Bound dissipative solitons are numerically studied by implementing strong Raman self-frequency shift...
Recent experiments have shown that the simple addition of a length of Raman-shifting fibre in the ca...
Session - Mode-locked Fiber Lasers I (STu1P): Paper no. STu1P.5CLEO: Science and Innovations 2016We ...
We measure the Raman self-frequency shift of temporal cavity solitons over one free spectral range o...
Temporal dynamics of Raman fibre lasers tend to have very complex nature, owing to great cavity leng...
Measurements on the jitter of mode-locked pulses of a Nd:YLF laser after travelling through an optic...
This thesis examines a number of passively and actively mode-locked fibre laser devices. The passive...
We study soliton self-frequency shift initiated by an Airy pulse in an optical fiber. The asymmetric...
By utilising a CW mode-locked Nd:YAG pump laser an experimental study of self-phase modulation (SPM)...
We examine the effects of stimulated Raman scattering on ultra-short pulses propagating in optical f...
International audienceWe review recent progress in the research on nonlinear mechanisms of pulse gen...
Active mode-locking of Raman fiber laser is experimentally investigated for the first time. An all f...
A novel fibre ring laser architecture reliant on the use of Raman-assisted nonlinearity management o...
Pulses in fibers establish analogs of the event horizon [Philbin et al., Science 319, 1367 (2008)]. ...