In-line digital holography with double knife edge

We study and test a new technique for in-line digital holography which avoids the formation of the conjugate images. Inline digital holography is based in a common path configuration. In this case, the hologram is produced by the interference between the reference wave front and the diffracted wave...

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Detalles Bibliográficos
Autor principal: Iemmi, Claudio César
Publicado: 2015
Materias:
holography
in-line
knife edge
reconstruction
single-sideband
spatial light modulator
twin images
Computer generated holography
Deformation
Holography
Image processing
Image reconstruction
Light modulators
Lithography
Units of measurement
Wavefronts
In-line digital holography
Knife edge
Knife-edge techniques
Particles distribution
Single side bands
Spatial frequency spectrums
Spatial light modulators
Twin-image
Holograms
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v9526_n_p_Ramirez
http://hdl.handle.net/20.500.12110/paper_0277786X_v9526_n_p_Ramirez
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_0277786X_v9526_n_p_Ramirez
record_format dspace
spelling paper:paper_0277786X_v9526_n_p_Ramirez2023-06-08T15:26:38Z In-line digital holography with double knife edge Iemmi, Claudio César holography in-line knife edge reconstruction single-sideband spatial light modulator twin images Computer generated holography Deformation Holography Image processing Image reconstruction Light modulators Lithography Units of measurement Wavefronts In-line digital holography Knife edge Knife-edge techniques Particles distribution Single side bands Spatial frequency spectrums Spatial light modulators Twin-image Holograms We study and test a new technique for in-line digital holography which avoids the formation of the conjugate images. Inline digital holography is based in a common path configuration. In this case, the hologram is produced by the interference between the reference wave front and the diffracted wave front by an almost transparent object. Twin images are obtained with obscured rings that difficult the determination of the best focusing plane. To avoid the conjugated image, the information of the magnitude and phase of the wave front are needed. In a recent work a new in-line digital holography technique was proposed. In this method the object is illuminated with a collimated wave front. A plane, close to the particles distribution is imaged onto a CCD by means of a convergent lens and at the same time, a knife edge is placed in the focal plane of the lens in order to block half of spatial frequency spectrum. In this way, by means of a numerical processing performed on the Fourier plane, it is possible to eliminate one of the components (real or conjugate) of the reconstructed images nevertheless it is observed a tiny deformation of the resulting hologram image. To compensate this effect, we propose a new configuration in which we implement the knife edge technique on both parts of the spectrum at the same time. Finally in the computer, we process the holograms to build one complete without deformation. This hologram is used to recover the wave front at different planes without the influence of the conjugate image. © 2015 Copyright SPIE. Fil:Iemmi, C. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2015 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v9526_n_p_Ramirez http://hdl.handle.net/20.500.12110/paper_0277786X_v9526_n_p_Ramirez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic holography
in-line
knife edge
reconstruction
single-sideband
spatial light modulator
twin images
Computer generated holography
Deformation
Holography
Image processing
Image reconstruction
Light modulators
Lithography
Units of measurement
Wavefronts
In-line digital holography
Knife edge
Knife-edge techniques
Particles distribution
Single side bands
Spatial frequency spectrums
Spatial light modulators
Twin-image
Holograms
spellingShingle holography
in-line
knife edge
reconstruction
single-sideband
spatial light modulator
twin images
Computer generated holography
Deformation
Holography
Image processing
Image reconstruction
Light modulators
Lithography
Units of measurement
Wavefronts
In-line digital holography
Knife edge
Knife-edge techniques
Particles distribution
Single side bands
Spatial frequency spectrums
Spatial light modulators
Twin-image
Holograms
Iemmi, Claudio César
In-line digital holography with double knife edge
topic_facet holography
in-line
knife edge
reconstruction
single-sideband
spatial light modulator
twin images
Computer generated holography
Deformation
Holography
Image processing
Image reconstruction
Light modulators
Lithography
Units of measurement
Wavefronts
In-line digital holography
Knife edge
Knife-edge techniques
Particles distribution
Single side bands
Spatial frequency spectrums
Spatial light modulators
Twin-image
Holograms
description We study and test a new technique for in-line digital holography which avoids the formation of the conjugate images. Inline digital holography is based in a common path configuration. In this case, the hologram is produced by the interference between the reference wave front and the diffracted wave front by an almost transparent object. Twin images are obtained with obscured rings that difficult the determination of the best focusing plane. To avoid the conjugated image, the information of the magnitude and phase of the wave front are needed. In a recent work a new in-line digital holography technique was proposed. In this method the object is illuminated with a collimated wave front. A plane, close to the particles distribution is imaged onto a CCD by means of a convergent lens and at the same time, a knife edge is placed in the focal plane of the lens in order to block half of spatial frequency spectrum. In this way, by means of a numerical processing performed on the Fourier plane, it is possible to eliminate one of the components (real or conjugate) of the reconstructed images nevertheless it is observed a tiny deformation of the resulting hologram image. To compensate this effect, we propose a new configuration in which we implement the knife edge technique on both parts of the spectrum at the same time. Finally in the computer, we process the holograms to build one complete without deformation. This hologram is used to recover the wave front at different planes without the influence of the conjugate image. © 2015 Copyright SPIE.
author Iemmi, Claudio César
author_facet Iemmi, Claudio César
author_sort Iemmi, Claudio César
title In-line digital holography with double knife edge
title_short In-line digital holography with double knife edge
title_full In-line digital holography with double knife edge
title_fullStr In-line digital holography with double knife edge
title_full_unstemmed In-line digital holography with double knife edge
title_sort in-line digital holography with double knife edge
publishDate 2015
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_0277786X_v9526_n_p_Ramirez
http://hdl.handle.net/20.500.12110/paper_0277786X_v9526_n_p_Ramirez
work_keys_str_mv AT iemmiclaudiocesar inlinedigitalholographywithdoubleknifeedge
_version_ 1768544084642758656

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