163 resultados para Holography.


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Mode of access: Internet.

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Optical coherence tomography (OCT) is an emerging coherence-domain technique capable of in vivo imaging of sub-surface structures at millimeter-scale depth. Its steady progress over the last decade has been galvanized by a breakthrough detection concept, termed spectral-domain OCT, which has resulted in a dramatic improvement of the OCT signal-to-noise ratio of 150 times demonstrated for weakly scattering objects at video-frame-rates. As we have realized, however, an important OCT sub-system remains sub-optimal: the sample arm traditionally operates serially, i.e. in flying-spot mode. To realize the full-field image acquisition, a Fourier holography system illuminated with a swept-source is employed instead of a Michelson interferometer commonly used in OCT. The proposed technique, termed Fourier-domain OCT, offers a new leap in signal-to-noise ratio improvement, as compared to flying-spot OCT systems, and represents the main thrust of this paper. Fourier-domain OCT is described, and its basic theoretical aspects, including the reconstruction algorithm, are discussed. (C) 2004 Elsevier B.V. All rights reserved.

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An approach reported recently by Alexandrov et al (2005 Int. J Imag. Syst. Technol. 14 253-8) on optical scatter imaging, termed digital Fourier microscopy (DFM), represents an adaptation of digital Fourier holography to selective imaging of biological matter. The holographic mode of the recording of the sample optical scatter enables reconstruction of the sample image. The form-factor of the sample constituents provides a basis for discrimination of these constituents implemented via flexible digital Fourier filtering at the post-processing stage. As in dark-field microscopy, the DFM image contrast appears to improve due to the suppressed optical scatter from extended sample structures. In this paper, we present the theoretical and experimental study of DFM using a biological phantom that contains polymorphic scatterers.

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Full-field Fourier-domain optical coherence tomography (3F-OCT) is a full-field version of spectral domain/swept source optical coherence tomography. A set of two-dimensional Fourier holograms is recorded at discrete wavenumbers spanning the swept source tuning range. The resultant three-dimensional data cube contains comprehensive information on the three-dimensional spatial properties of the sample, including its morphological layout and optical scatter. The morphological layout can be reconstructed in software via three-dimensional discrete Fourier transformation. The spatial resolution of the 3F-OCT reconstructed image, however, is degraded due to the presence of a phase cross-term, whose origin and effects are addressed in this paper. We present a theoretical and experimental study of the imaging performance of 3F-OCT, with particular emphasis on elimination of the deleterious effects of the phase cross-term.

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We report a new approach in optical coherence tomography (OCT) called full-field Fourier-domain OCT (3F-OCT). A three-dimensional image of a sample is obtained by digital reconstruction of a three-dimensional data cube, acquired with a Fourier holography recording system, illuminated with a swept source. We present a theoretical and experimental study of the signal-to-noise ratio of the 3F-OCT approach versus serial image acquisition (flying-spot OCT) approach. (c) 2005 Optical Society of America.

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Full-field Fourier-domain optical coherence tomography (3F-OCT) is a full-field version of spectraldomain/swept-source optical coherence tomography. A set of two-dimensional Fourier holograms is recorded at discrete wavenumbers spanning the swept-source tuning range. The resultant three-dimensional data cube contains comprehensive information on the three-dimensional morphological layout of the sample that can be reconstructed in software via three-dimensional discrete Fourier-transform. This method of recording of the OCT signal confers signal-to-noise ratio improvement in comparison with "flying-spot" time-domain OCT. The spatial resolution of the 3F-OCT reconstructed image, however, is degraded due to the presence of a phase cross-term, whose origin and effects are addressed in this paper. We present theoretical and experimental study of imaging performance of 3F-OCT, with particular emphasis on elimination of the deleterious effects of the phase cross-term.

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Thesis (Ph.D.)--University of Washington, 2016-08

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En los últimos años se ha dado un resurgimiento en el desarrollo de técnicas y dispositivos para generar imágenes 3D, algunos fundamentados en la estereoscopía y otros en la holografía -- La estereoscopía holográfica, surge como una propuesta híbrida que aprovechando las ventajas de cada una de ellas, permite registrar conjuntos de pares estereoscópicos de manera holográfica que reconstruyen imágenes 3D con características superiores a los estereogramas convencionales y soluciona algunas de las dificultades inherentes a la holografía -- En este trabajo se hace una propuesta de un sistema óptico alternativo en el que se utiliza un monitor LCD convencional como sistema de proyección, con el fin de generar las condiciones experimentales necesarias que posibiliten el registro de hologramas y la obtención de estereogramas holográficos bajo diferentes configuraciones -- Se evaluaron las condiciones de polarización y del elemento difusor del sistema, para mejorar su desempeño en el registro de hologramas de transmisión de objetos planos proyectados a partir de un LCD -- A partir de estos resultados, se posibilitó la obtención de matrices que permitieron el registro de hologramas de reflexión plano-imagen y estereogramas holográficos para los cuales se generaron las condiciones experimentales necesarias

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Interference lithography can create large-area, defect-free nanostructures with unique optical properties. In this thesis, interference lithography will be utilized to create photonic crystals for functional devices or coatings. For instance, typical lithographic processing techniques were used to create 1, 2 and 3 dimensional photonic crystals in SU8 photoresist. These structures were in-filled with birefringent liquid crystal to make active devices, and the orientation of the liquid crystal directors within the SU8 matrix was studied. Most of this thesis will be focused on utilizing polymerization induced phase separation as a single-step method for fabrication by interference lithography. For example, layered polymer/nanoparticle composites have been created through the one-step two-beam interference lithographic exposure of a dispersion of 25 and 50 nm silica particles within a photopolymerizable mixture at a wavelength of 532 nm. In the areas of constructive interference, the monomer begins to polymerize via a free-radical process and concurrently the nanoparticles move into the regions of destructive interference. The holographic exposure of the particles within the monomer resin offers a single-step method to anisotropically structure the nanoconstituents within a composite. A one-step holographic exposure was also used to fabricate self- healing coatings that use water from the environment to catalyze polymerization. Polymerization induced phase separation was used to sequester an isocyanate monomer within an acrylate matrix. Due to the periodic modulation of the index of refraction between the monomer and polymer, the coating can reflect a desired wavelength, allowing for tunable coloration. When the coating is scratched, polymerization of the liquid isocyanate is catalyzed by moisture in air; if the indices of the two polymers are matched, the coatings turn transparent after healing. Interference lithography offers a method of creating multifunctional self-healing coatings that readout when damage has occurred.

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This thesis considers non-perturbative methods in quantum field theory with applications to gravity and cosmology. In particular, there are chapters on black hole holography, inflationary model building, and the conformal bootstrap.

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En este trabajo se presenta la investigación realizada con el objeto de determinar la factibilidad tecnológica para el registro de los hologramas de matriz de punto utilizados ampliamente en la industria de las artes gráficas como elementos de seguridad en la lucha contra la piratería y la falsificación de productos -- Para ello se estudian y presentan los fundamentos ópticos de las rejillas de difracción que los conforman, derivando los métodos que permiten el cálculo a partir de condiciones establecidas de iluminación y reconstrucción -- A partir de dichos métodos se desarrollan y se ponen en funcionamiento sistemas y arreglos experimentales completos, que involucran el software para el control de los dispositivos mecánicos, para el manejo y diseño de las imágenes, y adicionalmente la óptica propiamente dicha -- Los sistemas de esta forma implementados, que permiten la generación y registro de las rejillas, son puestos a prueba y se presentan los resultados tomando como parámetro la medición de los espectros generados por difracción -- Finalmente se presentan y evalúan varios ejemplos típicos de la aplicación de los hologramas de seguridad generados en el sistema desarrollado