Lateral displacement of the refracted beam in an isotropic-uniaxial interface

The comprehension and determination of the properties of limited beams that propagate or reflect and refract on all kind of interfaces, have become of the greatest interest because of the present and future applications in linear and non-linear optics. As it is known, when there is total reflection...

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Detalles Bibliográficos
Publicado:	2004
Materias:	Anisotropic materials Gaussian beam Refraction Crystals Interfaces (materials) Light propagation Light refraction Nonlinear optics Optical systems Permittivity Gaussian beams Lateral displacement Linear optics Optical activity Laser beams
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v5622_nPART3_p1370_Perez http://hdl.handle.net/20.500.12110/paper_0277786X_v5622_nPART3_p1370_Perez
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_0277786X_v5622_nPART3_p1370_Perez
record_format	dspace
spelling	paper:paper_0277786X_v5622_nPART3_p1370_Perez2023-06-08T15:26:24Z Lateral displacement of the refracted beam in an isotropic-uniaxial interface Anisotropic materials Gaussian beam Refraction Crystals Interfaces (materials) Light propagation Light refraction Nonlinear optics Optical systems Permittivity Anisotropic materials Gaussian beams Lateral displacement Linear optics Optical activity Laser beams The comprehension and determination of the properties of limited beams that propagate or reflect and refract on all kind of interfaces, have become of the greatest interest because of the present and future applications in linear and non-linear optics. As it is known, when there is total reflection on an isotropic or an anisotropic interface, the reflected ray suffers a displacement on the interface that has been studied by a great number of authors. However, if an isotropic-uniaxial interface is considered, the condition of total reflection for one of the refracted rays can be fulfilled whereas the other subsists as a propagating wave. This leads to the existence of a complex displacement of the maximum associated to the propagating beam. We analyze this displacement and its relation with the phase shifts that the waves that synthesize the propagating beam suffer. We consider a beam with symmetric distribution of amplitudes that impinges on a general isotropic-uniaxial interface (i.e. without separation of modes). 2004 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v5622_nPART3_p1370_Perez http://hdl.handle.net/20.500.12110/paper_0277786X_v5622_nPART3_p1370_Perez
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Anisotropic materials Gaussian beam Refraction Crystals Interfaces (materials) Light propagation Light refraction Nonlinear optics Optical systems Permittivity Anisotropic materials Gaussian beams Lateral displacement Linear optics Optical activity Laser beams
spellingShingle	Anisotropic materials Gaussian beam Refraction Crystals Interfaces (materials) Light propagation Light refraction Nonlinear optics Optical systems Permittivity Anisotropic materials Gaussian beams Lateral displacement Linear optics Optical activity Laser beams Lateral displacement of the refracted beam in an isotropic-uniaxial interface
topic_facet	Anisotropic materials Gaussian beam Refraction Crystals Interfaces (materials) Light propagation Light refraction Nonlinear optics Optical systems Permittivity Anisotropic materials Gaussian beams Lateral displacement Linear optics Optical activity Laser beams
description	The comprehension and determination of the properties of limited beams that propagate or reflect and refract on all kind of interfaces, have become of the greatest interest because of the present and future applications in linear and non-linear optics. As it is known, when there is total reflection on an isotropic or an anisotropic interface, the reflected ray suffers a displacement on the interface that has been studied by a great number of authors. However, if an isotropic-uniaxial interface is considered, the condition of total reflection for one of the refracted rays can be fulfilled whereas the other subsists as a propagating wave. This leads to the existence of a complex displacement of the maximum associated to the propagating beam. We analyze this displacement and its relation with the phase shifts that the waves that synthesize the propagating beam suffer. We consider a beam with symmetric distribution of amplitudes that impinges on a general isotropic-uniaxial interface (i.e. without separation of modes).
title	Lateral displacement of the refracted beam in an isotropic-uniaxial interface
title_short	Lateral displacement of the refracted beam in an isotropic-uniaxial interface
title_full	Lateral displacement of the refracted beam in an isotropic-uniaxial interface
title_fullStr	Lateral displacement of the refracted beam in an isotropic-uniaxial interface
title_full_unstemmed	Lateral displacement of the refracted beam in an isotropic-uniaxial interface
title_sort	lateral displacement of the refracted beam in an isotropic-uniaxial interface
publishDate	2004
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v5622_nPART3_p1370_Perez http://hdl.handle.net/20.500.12110/paper_0277786X_v5622_nPART3_p1370_Perez
_version_	1768545373983342592

Lateral displacement of the refracted beam in an isotropic-uniaxial interface

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