79 research outputs found
Low saturation fluence in a semiconductor saturable electroabsorber mirror operated in a self-biased regime
A semiconductor saturable absorber mirror utilizing the electroabsorption effect on a self-biased stack of extremely shallow quantum wells is proposed and analyzed theoretically and numerically. The saturation flux and recovery time of the proposed device when operated with picosecond incident pulses are shown to compare very favorably with existing all-optical constructions. (C) 2008 American Institute of Physics
Introduction: Localized Structures in Dissipative Media: From Optics to Plant Ecology
Localised structures in dissipative appears in various fields of natural
science such as biology, chemistry, plant ecology, optics and laser physics.
The proposed theme issue is to gather specialists from various fields of
non-linear science toward a cross-fertilisation among active areas of research.
This is a cross-disciplinary area of research dominated by the nonlinear optics
due to potential applications for all-optical control of light, optical
storage, and information processing. This theme issue contains contributions
from 18 active groups involved in localized structures field and have all made
significant contributions in recent years.Comment: 14 pages, 0 figure, submitted to Phi. Trasaction Royal Societ
Delayed feedback control of self-mobile cavity solitons
Control of the motion of cavity solitons is one the central problems in
nonlinear optical pattern formation. We report on the impact of the phase of
the time-delayed optical feedback and carrier lifetime on the self-mobility of
localized structures of light in broad area semiconductor cavities. We show
both analytically and numerically that the feedback phase strongly affects the
drift instability threshold as well as the velocity of cavity soliton motion
above this threshold. In addition we demonstrate that non-instantaneous carrier
response in the semiconductor medium is responsible for the increase in
critical feedback rate corresponding to the drift instability
Cavity solitons in vertical-cavity surface-emitting lasers
We investigate a control of the motion of localized structures of light by
means of delay feedback in the transverse section of a broad area nonlinear
optical system. The delayed feedback is found to induce a spontaneous motion of
a solitary localized structure that is stationary and stable in the absence of
feedback. We focus our analysis on an experimentally relevant system namely the
Vertical-Cavity Surface-Emitting Laser (VCSEL). In the absence of the delay
feedback we present experimental evidence of stationary localized structures in
a 80 m aperture VCSEL. The spontaneous formation of localized structures
takes place above the lasing threshold and under optical injection. Then, we
consider the effect of the time-delayed optical feedback and investigate
analytically the role of the phase of the feedback and the carrier lifetime on
the self-mobility properties of the localized structures. We show that these
two parameters affect strongly the space time dynamics of two-dimensional
localized structures. We derive an analytical formula for the threshold
associated with drift instability of localized structures and a normal form
equation describing the slow time evolution of the speed of the moving
structure.Comment: 7 pages, 5 figure
Vectorial dark dissipative solitons in Kerr resonators
We report the existence of vectorial dark dissipative solitons in optical
cavities subject to a coherently injected beam. We assume that the resonator is
operating in a normal dispersion regime far from any modulational instability.
We show that the vectorial front locking mechanism allows for the stabilisation
of dark dissipative structures. These structures differ by their temporal
duration and their state of polarization. We characterize them by constructing
their heteroclinic snaking bifurcation diagram showing evidence of
multistability within a finite range of the control parameter.Comment: \copyright 2021 Optical Society of America. Users may use, reuse, and
build upon the article, or use the article for text or data mining, so long
as such uses are for non-commercial purposes and appropriate attribution is
maintained. All other rights are reserve
Delay feedback induces a spontaneous motion of two-dimensional cavity solitons in driven semiconductor microcavities
We consider a broad area vertical-cavity surface-emitting laser (VCSEL) operating below the lasing threshold and subject to optical injection and time-delayed feedback. We derive a generalized delayed Swift-Hohenberg equation for the VCSEL system, which is valid close to the nascent optical bistability. We first characterize the stationary-cavity solitons by constructing their snaking bifurcation diagram and by showing clustering behavior within the pinning region of parameters. Then, we show that the delayed feedback induces a spontaneous motion of two-dimensional (2D) cavity solitons in an arbitrary direction in the transverse plane. We characterize moving cavity solitons by estimating their threshold and calculating their velocity. Numerical 2D solutions of the governing semiconductor laser equations are in close agreement with those obtained from the delayed generalized Swift-Hohenberg equation
Theoretical and experimental study of polarization switching in longwavelength VCSELs subject to parallel optical injection
We report a theoretical and experimental analysis of the polarization switching found in a single-transverse mode VCSEL when subject to parallel optical injection. We have found a novel situation in which injection locking of the parallel polarization and excitation of the free-running orthogonal polarization of the VCSEL are simultaneously obtained. Analytical expressions for the power of both linear polarizations in the previous steady state are determined. We show that considering two linear polarization modes in a model of a VCSEL subject to parallel optical injection leads to simpler expressions than those found for a VCSEL with only a single linear polarization. We show that the power emitted in both linear polarizations depend linearly on the injected power. The stability region of this solution is measured in the plane injected power versus frequency detuning.This work has been funded by the Ministerio de Economía y Competitividad, Spain under project TEC2015-65212-C3-1-P and cofinanced by FEDER funds
Vector cavity solitons in broad area Vertical-Cavity Surface-Emitting lasers
We report the experimental observation of two-dimensional vector cavity solitons in a Vertical-Cavity Surface-Emitting Laser (VCSEL) under linearly polarized optical injection when varying optical injection linear polarization direction. The polarization of the cavity soliton is not the one of the optical injection as it acquires a distinct ellipticity. These experimental results are qualitatively reproduced by the spin-flip VCSEL model. Our findings open the road to polarization multiplexing when using cavity solitons in broad-area lasers as pixels in information technology
Deterministic polarization chaos from a laser diode
Fifty years after the invention of the laser diode and fourty years after the
report of the butterfly effect - i.e. the unpredictability of deterministic
chaos, it is said that a laser diode behaves like a damped nonlinear
oscillator. Hence no chaos can be generated unless with additional forcing or
parameter modulation. Here we report the first counter-example of a
free-running laser diode generating chaos. The underlying physics is a
nonlinear coupling between two elliptically polarized modes in a
vertical-cavity surface-emitting laser. We identify chaos in experimental
time-series and show theoretically the bifurcations leading to single- and
double-scroll attractors with characteristics similar to Lorenz chaos. The
reported polarization chaos resembles at first sight a noise-driven mode
hopping but shows opposite statistical properties. Our findings open up new
research areas that combine the high speed performances of microcavity lasers
with controllable and integrated sources of optical chaos.Comment: 13 pages, 5 figure
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