Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems

The field amplitude associated with ultra-short light pulses is analysed using the phase-space formalism of the Wigner distribution function (WDF). By properly modifying the diffraction integral to take into account the dispersion effects (up to the second order), we derive a two-dimensional WDF ass...

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Autores principales: Zalvidea, D., Sicre, E.E., Righini G.C., Consortini A.
Formato: CONF
Materias:
Aberrations
Fourier transforms
Functions
Imaging systems
Light propagation
Lighting
Optical microscopy
Ultrashort pulses
Helmholtz equations
Optical axis
Spherical aberrations
Wigner distribution function (WDF)
Optical systems
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0277786X_v4829I_n_p327_Zalvidea
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_0277786X_v4829I_n_p327_Zalvidea
record_format dspace
spelling todo:paper_0277786X_v4829I_n_p327_Zalvidea2023-10-03T15:16:24Z Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems Zalvidea, D. Sicre, E.E. Righini G.C. Consortini A. Aberrations Fourier transforms Functions Imaging systems Light propagation Lighting Optical microscopy Ultrashort pulses Helmholtz equations Optical axis Spherical aberrations Wigner distribution function (WDF) Optical systems The field amplitude associated with ultra-short light pulses is analysed using the phase-space formalism of the Wigner distribution function (WDF). By properly modifying the diffraction integral to take into account the dispersion effects (up to the second order), we derive a two-dimensional WDF associated with a reduced pupil function, from which the on-axis irradiance is obtained for varying time and defocus. The behaviour of the optical system can be visualised as a three-dimensional irradiance display in a combined space-temporal domain. In order to illustrate this approach, we show some results for the case of an optical imaging system suffering from spherical aberration. CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0277786X_v4829I_n_p327_Zalvidea
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Aberrations
Fourier transforms
Functions
Imaging systems
Light propagation
Lighting
Optical microscopy
Ultrashort pulses
Helmholtz equations
Optical axis
Spherical aberrations
Wigner distribution function (WDF)
Optical systems
spellingShingle Aberrations
Fourier transforms
Functions
Imaging systems
Light propagation
Lighting
Optical microscopy
Ultrashort pulses
Helmholtz equations
Optical axis
Spherical aberrations
Wigner distribution function (WDF)
Optical systems
Zalvidea, D.
Sicre, E.E.
Righini G.C.
Consortini A.
Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
topic_facet Aberrations
Fourier transforms
Functions
Imaging systems
Light propagation
Lighting
Optical microscopy
Ultrashort pulses
Helmholtz equations
Optical axis
Spherical aberrations
Wigner distribution function (WDF)
Optical systems
description The field amplitude associated with ultra-short light pulses is analysed using the phase-space formalism of the Wigner distribution function (WDF). By properly modifying the diffraction integral to take into account the dispersion effects (up to the second order), we derive a two-dimensional WDF associated with a reduced pupil function, from which the on-axis irradiance is obtained for varying time and defocus. The behaviour of the optical system can be visualised as a three-dimensional irradiance display in a combined space-temporal domain. In order to illustrate this approach, we show some results for the case of an optical imaging system suffering from spherical aberration.
format CONF
author Zalvidea, D.
Sicre, E.E.
Righini G.C.
Consortini A.
author_facet Zalvidea, D.
Sicre, E.E.
Righini G.C.
Consortini A.
author_sort Zalvidea, D.
title Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
title_short Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
title_full Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
title_fullStr Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
title_full_unstemmed Space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
title_sort space-temporal analysis of ultra-short light pulse propagation in aberrated optical systems
url http://hdl.handle.net/20.500.12110/paper_0277786X_v4829I_n_p327_Zalvidea
work_keys_str_mv AT zalvidead spacetemporalanalysisofultrashortlightpulsepropagationinaberratedopticalsystems
AT sicreee spacetemporalanalysisofultrashortlightpulsepropagationinaberratedopticalsystems
AT righinigc spacetemporalanalysisofultrashortlightpulsepropagationinaberratedopticalsystems
AT consortinia spacetemporalanalysisofultrashortlightpulsepropagationinaberratedopticalsystems
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