par Durniak, C.;Taki, Majid;Tlidi, Mustapha 
;Ramazza, P. L.;Bortolozzo, U.;Kozyreff, Gregory
Référence Physical Review E (Statistical, Nonlinear, and Soft Matter Physics), 72, 2, 026607
Publication Publié, 2005
;Ramazza, P. L.;Bortolozzo, U.;Kozyreff, Gregory Référence Physical Review E (Statistical, Nonlinear, and Soft Matter Physics), 72, 2, 026607
Publication Publié, 2005
Article révisé par les pairs
| Résumé : | Evidence of modulated dissipative structures with an intrinsic wavelength in a nonlinear optical system devoid of Turing instability is given. They are found in the transverse field distribution of an optical cavity containing a liquid crystal light valve. Their existence is related to a transition from flat to modulated fronts connecting the unstable middle branch of a bistability cycle and either of the two stable uniform states. We first analyze the cavity in the limit of nascent bistability, where a modified Swift-Hohenberg equation is derived. This allows for a simple analytical expression of the threshold associated with the transition as well as the wavelength of the emerging structure. Numerical simulations show development of ring-shaped modulated fronts and confirm analytical predictions. We then turn to the full model and find the same transition, both analytically and numerically, proving that this transition in not limited to nascent bistability regimes. |
