Elliptical Gaussian beam propagation in nonlinear fibres with focusing and defocusing refractive profiles

•Initial principle wave front curvatures are equivalent to beam ellipticity effect.•Effective method for high-elliptic beams using non-zero values wave front curvatures.•Beam ellipticity with positive curvatures limit collapse effect.•Ellipticity with positive curvatures and defocusing permittivity...

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Bibliographic Details
Published in:Optics and laser technology 2019-07, Vol.115, p.337-355
Main Authors: Berczyński, Paweł, Marczyński, Sławomir
Format: Article
Language:English
Subjects:
Beams (radiation)
Collapse
Defocusing
Differential equations
Diffraction
Eikonal equation
Ellipticity
Energy conservation
Evolution
Focusing
Gaussian beams (optics)
Geometrical optics
Mathematical analysis
Nonlinear optics
Ordinary differential equations
Schrodinger equation
Solitary waves
Transport equations
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Summary:•Initial principle wave front curvatures are equivalent to beam ellipticity effect.•Effective method for high-elliptic beams using non-zero values wave front curvatures.•Beam ellipticity with positive curvatures limit collapse effect.•Ellipticity with positive curvatures and defocusing permittivity eliminate collapse.•Existence of soliton in self-defocusing fibre is observed. The paper shows systematic analysis of elliptical Gaussian beam (GB) propagating in self-focusing/self-defocusing media of Kerr type with focusing/defocusing linear refractive profiles. Instead of solving commonly accepted Nonlinear Schrödinger Equation (NLS) we propose equations of geometrical optics: complex eikonal equation and complex transport one. Eikonal equation let us derive immediately the ordinary differential equations for principle widths omitting this way complicated variational process and virial theory used in nonlinear optics. From the transport equation we obtain first order ordinary differential equation for complex amplitude evolution and conservation principle for energy flux in the elliptical GB cross-section. For combined effects of diffraction, nonlinear refraction and focusing/defocusing graded-index factor we observe three types of the solutions for the elliptical radius of principle beam widths: self-focusing or self-defocusing together with diffraction widening, stationary and oscillatory ones under and without collapse effect. We prove here that principle curvatures of the wave front can introduce into our description the additional ellipticity of the beam, which can effectively limit collapse effect. Moreover, we discuss the evolution of elliptical Gaussian beam in nonlinear self-defocusing fibre with focusing refractive profile presenting conditions for existence of elliptical spatial solitons. We discuss here also the influence of initial wave front curvatures on elliptical Gaussian beam evolution in nonlinear inhomogeneous fibres of Kerr-type.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2019.02.004