TY - JOUR
T1 - Bubbling in delay-coupled lasers
AU - Flunckert, V.
AU - D'Huys, Ottilde
AU - Danckaert, Jan
AU - Fischer, I.
AU - Scholl, E.
PY - 2009
Y1 - 2009
N2 - We theoretically study chaos synchronization of two lasers which are delay coupled via an active or a passive relay. While the lasers are synchronized, their dynamics is identical to a single laser with delayed feedback for a passive relay and identical to two delay-coupled lasers for an active relay. Depending on the coupling parameters the system exhibits bubbling, i.e., noise-induced desynchronization, or on-off intermittency. We associate the desynchronization dynamics in the coherence collapse and low-frequency fluctuation regimes with the transverse instability of some of the compound cavity's antimodes. Finally, we demonstrate how, by using an active relay, bubbling can be suppressed.
AB - We theoretically study chaos synchronization of two lasers which are delay coupled via an active or a passive relay. While the lasers are synchronized, their dynamics is identical to a single laser with delayed feedback for a passive relay and identical to two delay-coupled lasers for an active relay. Depending on the coupling parameters the system exhibits bubbling, i.e., noise-induced desynchronization, or on-off intermittency. We associate the desynchronization dynamics in the coherence collapse and low-frequency fluctuation regimes with the transverse instability of some of the compound cavity's antimodes. Finally, we demonstrate how, by using an active relay, bubbling can be suppressed.
KW - SEMICONDUCTOR-LASERS; OPTICAL FEEDBACK
KW - CHAOTIC SYSTEMS; SYNCHRONIZATION; DYNAMICS
KW - INTERMITTENCY; OSCILLATORS
KW - ATTRACTORS; LANG
M3 - Article
VL - 79
SP - 65201
EP - 65202
JO - Physical Review E. Statistical, Nonlinear, and Soft Matter Physics
JF - Physical Review E. Statistical, Nonlinear, and Soft Matter Physics
SN - 1539-3755
IS - 2009
ER -