Journal
NONLINEARITY
Volume 18, Issue 3, Pages 1095-1120Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0951-7715/18/3/010
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We study in detail complex structures of homoclinic bifurcations in a threedimensional rate-equation model of a semiconductor laser receiving optically injected light of amplitude K and frequency detuning omega. Specifically, we find and follow in the (K, omega)-plane curves of n-homoclinic bifurcations, where a saddle-focus is connected to itself at the nth return to a neighbourhood of the saddle. We reveal an intricate interplay of codimension-two double-homoclinic and T-point bifurcations. Furthermore, we study how the bifurcation diagram changes with an additional parameter, the so-called linewidth enhancement factor a of the laser. In particular, we find folds (minima) of T-point bifurcation and double-homoclinic bifurcation curves, which are accumulated by infinitely many changes of the bifurcation diagram due to transitions through singularities of surfaces of homoclinic bifurcations. The injection laser emerges as a system that allows one to study codimension-two bifurcations of n-homoclinic orbits in a concrete vector field. At the same time, the bifurcation diagram in the (K, w)-plane is of physical relevance. An example is the identification of regions, and their dependence on the parameter a, of multi-pulse excitability where the laser reacts to a single small perturbation by sending out n pulses.
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