Title :
Numerical simulation of a passive twin-core fibre coupler ring laser based on nonlinear optical switching
Author :
Zhu, Y. ; Handerek, V.A. ; Rogers, A.J. ; Kanka, J.
Author_Institution :
King´´s Coll., London, UK
Abstract :
We have described a comprehensive numerical model of a passive nonlinear fibre coupler laser. The effect of Raman self-frequency shift and gain saturation are both included. It is shown that the Raman effect generally limits the steady-state operation of a passive nonlinear coupler laser, and can be well controlled by employing two wideband bandpass filters. The modelocking threshold has been investigated. It is found that solitonic modelocking in such a laser can not always be realised. Gain saturation and longer nonlinear coupling length are most favourable for soliton formation in this laser
Keywords :
fibre lasers; Raman effect; Raman self-frequency shift; gain saturation; nonlinear coupling length; nonlinear optical switching; numerical simulation; passive nonlinear coupler laser; passive nonlinear fibre coupler laser; passive twin-core fibre coupler ring laser; soliton formation; solitonic modelocking; steady-state operation; wideband bandpass filters;
Conference_Titel :
Optoelectronic Integration and Switching (Ref. No: 1997/372), IEE Colloquium on
Conference_Location :
Glasgow
DOI :
10.1049/ic:19971243
