Interaction-induced mode switching in steady-state microlasers
Abstract
We demonstrate that due to strong modal interactions through cross-gain saturation, the onset of a new lasing mode can switch off an existing mode via a negative power slope. In this process of interaction-induced mode switching (IMS) the two involved modes maintain their identities, i.e. they do not change their spatial field patterns or lasing frequencies. For a fixed pump profile, a simple analytic criterion for the occurrence of IMS is given in terms of their self- and cross-interaction coefficients and non-interacting thresholds, which is verified for the example of a two-dimensional microdisk laser. When the spatial pump profile is varied as the pump power is increased, IMS can be induced even when it would not occur with a fixed pump profile, as we show for two coupled laser cavities. Our findings apply to steady-state lasing and are hence different from dynamical mode switching or hopping. IMS may have potential applications in robust and flexible all-optical switching.
Keywords
Cite
@article{arxiv.1504.08018,
title = {Interaction-induced mode switching in steady-state microlasers},
author = {Li Ge and David Liu and Alexander Cerjan and Stefan Rotter and Hui Cao and Steven G. Johnson and Hakan E. Tureci and A. Douglas Stone},
journal= {arXiv preprint arXiv:1504.08018},
year = {2016}
}
Comments
14 pages, 5 figures