Cookies Policy
The website need some cookies and similar means to function. If you permit us, we will use those means to collect data on your visits for aggregated statistics to improve our service. Find out More
Accept Reject
  • Menu
Publications

Publications by Maria Inês Carvalho

2010

Soliton self-frequency shift: Self-similar solutions and their stability

Authors
Facao, M; Carvalho, MI; Parker, DF;

Publication
PHYSICAL REVIEW E

Abstract
Ultrashort pulse propagation in fibers is affected by intrapulse Raman scattering (IRS) which causes both a linear frequency downshift and a quadratic displacement of the peak pulse, as functions of the propagation distance. This effect has been known and treated by perturbation methods applied to the nonlinear Schroumldinger equation since the period of intense research on soliton propagation. Here, we find solutions of the model equation using an accelerating self-similarity variable and study their stability. These solutions have Airy function asymptotics which give them infinite energy. For small IRS, the algebraically decaying tail is negligible and these solutions are a very good approximation of the profiles observed in the full equation simulations. For strong IRS (but beyond the regime in which the evolution equation is valid for silica fibers), the self-similar pulses have noticeable left tails exhibiting Airy oscillations. Whenever their truncated forms are used as initial conditions of the full equation, they experience amplitude decay and show left tails that are consistent with radiation escaping from the central pulse. These observations are interpreted as being the effects of a continuum constitution of the infinite left tail.

1995

VECTOR PHOTOREFRACTIVE SPATIAL SOLITONS

Authors
SEGEV, M; VALLEY, GC; SINGH, SR; CARVALHO, MI; CHRISTODOULIDES, DN;

Publication
OPTICS LETTERS

Abstract
We derive vector soliton solutions for photorefractive media in which the refractive-index perturbations must be treated as tensors. The two polarizations of the vector solitons may be coupled through the space-charge field alone and/or through cross terms in the electro-optic tenser, which requires phase matching and specific configurations. We analyze bright planar vector solitons and verify their stability. (C) 1995 Optical Society of America

1995

VECTOR INTERACTIONS OF STEADY-STATE PLANAR SOLITONS IN BIASED PHOTOREFRACTIVE MEDIA

Authors
SINGH, SR; CARVALHO, MI; CHRISTODOULIDES, DN;

Publication
OPTICS LETTERS

Abstract
A theory describing the steady-state propagation of orthogonally polarized planar bright beams in biased photorefractive media is developed. Interactions between soliton states of each polarization in a strontium barium niobate photorefractive crystal are then investigated numerically. Our results indicate that such vector interactions can lead to a number of interesting effects such as beam compression and beam steering. (C) 1995 Optical Society of America

1994

OPTICAL SHOCK-WAVES IN NONLINEAR DISPERSIVE AMPLIFYING MEDIA

Authors
CHRISTODOULIDES, DN; CARVALHO, MI;

Publication
OPTICS LETTERS

Abstract
We show that optical shock-wave solutions are possible in nonlinear dispersive amplifying media that exhibit a frequency-dependent gain and background loss. These shock-wave domains exist at lasing threshold and are permitted in both the normal and the anomalous dispersive regions.

1994

COMPRESSION, SELF-BENDING, AND COLLAPSE OF GAUSSIAN BEAMS IN PHOTOREFRACTIVE CRYSTALS

Authors
CHRISTODOULIDES, DN; CARVALHO, MI;

Publication
OPTICS LETTERS

Abstract
By means of an exact solution, we demonstrate that a Gaussian beam can undergo spatial compression when it traverses a photorefractive medium. This is possible provided that the external bias field exceeds the critical value necessary to establish photorefractive spatial solitons. In this regime and under paraxial assumptions our analysis indicates that a Gaussian beam tends to exhibit self-focusing collapse. Beam self-deflection effects that arise from the pi/2-phase-shifted component of the photorefractive grating are also considered in our study.

1996

Incoherently coupled soliton pairs in biased photorefractive crystals

Authors
Christodoulides, DN; Singh, SR; Carvalho, MI; Segev, M;

Publication
APPLIED PHYSICS LETTERS

Abstract
We show that incoherently coupled soliton pairs are possible in biased photorefractive crystals, under steady-state conditions. These solitons can propagate in bright-bright, dark-dark, as well as in bright-dark configurations. Such soliton pairs can be established provided that the carrier beams share the same polarization, wavelength, and are mutually incoherent. Relevant examples are provided where the photorefractive crystal is of the strontium barium niobate type. The characteristics and stability properties of these soliton states are also discussed in detail. (C) 1996 American Institute of Physics.

  • 6
  • 10