We analyze numerically the microscopic model formulated in a companion paper [J. Opt. Soc. Am. B 16, 2083 (1999)] to describe an externally driven broad-area bulk GaAs microcavity. We numerically predict the formation of patterns in the transverse profile of the output held. In particular, we find the existence of stable cavity solitons, which appear as self-organized light peaks embedded in a homogeneous background. We study the characteristics of such structures and specifically the possibility of switching them on and off at desired locations in the transverse field profile. Moreover, we analyze the interaction properties of cavity solitons with the purpose of applying them, in the future, to optical information treatment. Finally, we st...
We demonstrate the existence of both bright and dark spontaneously moving spatial solitons in a mode...
Cavity solitons were recently predicted in semiconductor microresonators grown with a vertical geome...
We present a complete overview of our investigation past and present of the modelization and study o...
We analyze numerically the microscopic model formulated in a companion paper [J. Opt. Soc. Am. B 16,...
We consider a broad-area vertical microresonator with an active layer constituted by bulk GaAs drive...
We start by reviewing the basic physical properties of cavity solitons, embedding this phenomenon in...
We study the periodic structures that emerge beyond the instability threshold point in a semiconduct...
Cavity solitons are stationary self-organized bright intensity peaks which form over a homogeneous b...
Cavity solitons are localized intensity peaks that can form in a homogeneous background of radiation...
We apply a versatile numerical technique to establishing the existence of cavity solitons (CS) in a ...
13 pagesCavity solitons are stationary self-organized bright intensity peaks which form over a homog...
We study Optical Pattern Formation and Cavity Solitons in semiconductor microcavities. We adopt a mi...
We demonstrate the existence of both bright and dark spontaneously moving spatial solitons in a mode...
Cavity solitons were recently predicted in semiconductor microresonators grown with a vertical geome...
We present a complete overview of our investigation past and present of the modelization and study o...
We analyze numerically the microscopic model formulated in a companion paper [J. Opt. Soc. Am. B 16,...
We consider a broad-area vertical microresonator with an active layer constituted by bulk GaAs drive...
We start by reviewing the basic physical properties of cavity solitons, embedding this phenomenon in...
We study the periodic structures that emerge beyond the instability threshold point in a semiconduct...
Cavity solitons are stationary self-organized bright intensity peaks which form over a homogeneous b...
Cavity solitons are localized intensity peaks that can form in a homogeneous background of radiation...
We apply a versatile numerical technique to establishing the existence of cavity solitons (CS) in a ...
13 pagesCavity solitons are stationary self-organized bright intensity peaks which form over a homog...
We study Optical Pattern Formation and Cavity Solitons in semiconductor microcavities. We adopt a mi...
We demonstrate the existence of both bright and dark spontaneously moving spatial solitons in a mode...
Cavity solitons were recently predicted in semiconductor microresonators grown with a vertical geome...
We present a complete overview of our investigation past and present of the modelization and study o...