Silvânia A. Carvalho scite author profile

Abstract. We show in which conditions optical gaussian beams, propagating throughout an homogeneous dielectric right angle prism, present an asymmetric Goos-Hänchen (GH) effect. This asymmetric behavior is seen for incidence at critical angles and happens in the propagation direction of the outgoing beam. The asymmetric GH effect can be also seen as an amplification of the standard GH shift. Due to the fact that it only depends on the ratio between the wavelength and the minimal waist size of the incoming gaussian beam, it can be also used to determine one of these parameters. Multiple peaks interference is an additional phenomenon seen in the presence of such asymmetric effects.

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The use of the stationary phase method as a mathematical tool to determine the path of optical beams

Carvalho

2015

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Maximal breaking of symmetry at critical angles and a closed-form expression for angular deviations of the Snell law

Araújo

Carvalho

2014

Phys. Rev. A

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•• Physical Review A 90, 033844-11 (2014) Physical Review A 90, 033844-11 (2014A detailed analysis of the propagation of laser gaussian beams at critical angles shows in which conditions it is possible to maximize the breaking of symmetry in the angular distribution and for which values of the laser wavelength and beam waist is possible to find an analytic formula for angular deviations of the Snell law. For propagation throughout N dielectric blocks and for a full breaking of symmetry, overcoming the well known problem of the infinity at critical angle, a closed expression for the Goos-Hänchen shift is obtained. The multiple peaks phenomenon clearly represents an additional evidence of the breaking of symmetry in the angular distribution of optical beams. Finally, laser wavelength and beam waist conditions to produce focal effects in the outgoing beam are also briefly discussed.

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Electromagnetically-induced phase grating: A coupled-wave theory analysis

Carvalho¹,

Araujo²

2011

Opt. Express

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