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1	Generation of Versatile Vortex Linear Light Bullets Huang, Xin January 2015 (has links) No description available. Optics Physics Ultrafast optics Airy pulses Bessel beams Vortex
2	High brightness lasers Naidoo, Darryl 04 1900 (has links) Thesis (PhD)--Stellenbosch University, 2015. High power lasers Lasers -- Resonators Spatial light modulator Bessel beams Orbital angular momentum UCTD
3	Laser drilling of metals and glass using zero-order bessel beams Ratsibi, Humbelani Edzani January 2013 (has links) >Magister Scientiae - MSc / This dissertation consists of two main sections. The first section focuses on generating zero order Bessel beams using axicons. An axicon with an opening angle y = 5⁰ was illuminated with a Gaussian beam of width ω₀ = 1.67 mm from a cw fiber laser with central wavelength λ = 1064 nm to generate zero order Bessel beams with a central spot radius r₀ = 8.3 ± 0.3 μm and propagation distance ½zmax = 20.1 ± 0.5 mm. The central spot size of a Bessel beam changes slightly along the propagation distance. The central spot radius r₀ can be varied by changing the opening angle of the axicon, y, and the wavelength of the beam. The second section focuses on applications of the generated Bessel beams in laser microdrilling. A Ti:Sapphire pulsed femtosecond laser (λ = 775 nm, ω₀ = 2.5 mm, repetition rate kHz, pulse energy mJ, and pulse duration fs) was used to generate the Bessel beams for drilling stainless steel thin sheets of thickness 50 μm and 100 μm and microscopic glass slides 1 mm thick. The central spot radius was r₀ = 15.9 ± 0.3 μm and ½zmax = 65.0 ± 0.5 mm. The effect of the Bessel beam shape on the quality of the holes was analysed and the results were discussed. It was observed that Bessel beams drill holes of better quality on transparent microscopic glass slides than on stainless steel sheet. The holes drilled on stainless steel sheets deviated from being circular on both the top and bottom surface for both thicknesses. However the holes maintained the same shape on both sides of each sample, indicating that the walls are close to being parallel. The holes drilled on the glass slides were circular and their diameters could be measured. The measured diameter (15.4±0.3 μm) of the hole is smaller than the diameter of the central spot (28.2 ± 0.1 μm) of the Bessel beam. Increasing the pulse energy increased the diameter of the drilled hole to a value close to the measured diameter of the central spot. Gaussian beam Bessel beams Laser beams Laser drilling Laser beam shaping
4	Optical Orbital Angular Momentum from 3D-printed Microstructures for Biophotonics Applications Reddy, Innem V.A.K. 11 1900 (has links) This work aims to implement 3D microstructures that generate light with orbital angular momentum towards applications in Biophotonics. Over the past few decades, 3D printing has established itself as the most versatile technology with effortless adaptability. Parallel to this, the concept of miniaturiza tion has seen tremendous growth irrespective of the field and has become an estab lished trend motivated by the need for compact, portable and multi-function devices. Therefore, when these two concepts get together, i.e., 3D printing of miniaturized objects, it could lead to an exciting path with endless opportunities. When it comes to optics, miniaturized 3D printing offers the potential to create compact optical micro-systems and exhibits a way to manufacture freeform µ-optics. In particular, two-photon lithography (TPL) is a cutting edge 3D printing technology that has re cently demonstrated groundbreaking solutions for optics as it offers high resolution with a great degree of flexibility. With a TPL 3D printer, it is possible to fabricate complex µ-optical elements and employ them for compelling applications. In recent years, light with orbital angular momentum (OAM), or ”twisted” light, has captured the interests of several researchers due to its inspiring applications. Tra ditionally, to generate OAM beams, one would require bulk, table-top optics, restrict ing their applications to over-the-table setup. An alternative approach of OAM beam generation is through µ-structures over the fiber, as they can open up new opportu nities, especially in Bioscience, and facilitate in-vivo operations. In particular, this probe-like setup can be used for processes such as optical trapping, high-resolution microscopy, etc. Hence, I propose the development of a novel approach with un precedented capabilities for generating OAM beams right from single-mode optical fibers, by transforming its Gaussian-like output beam by using complex 3D printed microstructures. In this document, I will showcase designs and results on generating Bessel beams (both zeroth- and high-order) and high-NA converging beams (with and without OAM) for optical trapping from the fiber. Remarkably, I achieved the first-ever fiber-based high-order Bessel beam generation and the first-ever fiber optical tweezers with OAM. 3D printing micro-Optics Orbital angular momentum Bessel beams fiber optical tweezers miniaturized optical systems
5	Análise de forças ópticas no aprisionamento de partículas esféricas utilizando superposições discretas de feixes de Bessel em óptica geométrica / Analysis of optical forces in the trapping of spherical particles using discrete superposition of Bessel beams in optical rays Santos, Amélia Moreira 31 August 2017 (has links) Este trabalho é uma contribuição às análises de forças de aprisionamento óptico exercidas sobre partículas esféricas por superposições discretas de feixes de Bessel. Um estudo teórico-numérico foi realizado no regime de óptica geométrica, completando as pesquisas já realizadas com tais feixes e no caso escalar, tanto no regime de Rayleigh quanto através de um formalismo eletromagnético completo. Investigam-se padrões longitudinais de intensidade de possível interesse prático, com potenciais de fornecer múltiplas armadilhas ópticas simultâneas utilizando dois métodos de análise. O primeiro parte da observação de que no regime paraxial todos os raios associados aos feixes se encontram quase paralelos entre si quando se toma como aproximação uma superposição de raios paralelos que incidem completamente sobre um hemisfério do espalhador. Tal método, entretanto, é naturalmente restrito pelas forças transversais. O segundo, que torna mais confiáveis e precisas as predições acerca da componente longitudinal de força, adota procedimentos mais robustos que levam em consideração tanto a contribuição da pressão de radiação (força de espalhamento) quanto a força gradiente devido a gradientes locais de intensidade associados a raios não-paralelos. Assim, acredita-se que este trabalho traz como contribuição um reforço a esta classe específica e promissora de feixes não difrativos como feixes de luz interessantes para aplicações em aprisionamento e micromanipulação óptica. / This work is a contribution to the analyses of optical trapping forces exerted on spherical particles by discrete superpositions of Bessel beams. A theoretical-numerical study has been carried out in the ray optics regime, completing the pre-existing research performed with such beams, in the scalar case, both in the Rayleigh regime and through a complete electromagnetic formalism. We investigate longitudinal intensity patterns of possible practical interest with potential to provide multiple simultaneous optical traps, by using two methods of analysis. The first assumes that, in the paraxial regime, all rays associated to the beams are almost parallel to each other, taking a superposition of parallel rays that are completely incident on a hemisphere of the scatterer as a suitable approximation. Such a method, however, is naturally constrained by the transverse forces. The second one, which makes the predictions about the longitudinal force component more reliable and accurate, adopts more robust procedures that take into consideration the contribution of the radiation pressure (scattering force) as well as the gradient force due to local intensity gradients associated to non-parallel rays. Thus it is hoped that this work will contribute to reinforce this specific and promising class of non-diffractive beams as interesting light beams for applications in optical trapping and micromanipulation. Aprisionamento óptico Bessel beams Feixes de Bessel Frozen waves Frozen waves Óptica geométrica Optical trapping Optical tweezers Pinças ópticas Ray optics
6	Cálculo de forças em partículas dielétricas usando feixes de Bessel truncados nos regimes de óptica geométrica e de Rayleigh / Optical force calculations over dielectric particles using truncated Bessel beams on ray optics and Rayleigh regime Arantes, Pedro Paulo Justino da Silva 31 August 2017 (has links) Desde a sua origem nos laboratórios do Bell Labs, durante a década de 70, pinças ópticas vêm sendo investigadas, desenvolvidas e diversificadas por vários grupos nacionais e internacionais incluindo, nos últimos anos, o nosso departamento (Departamento de Engenharia Elétrica e de Computação - SEL/EESC/USP) e, em particular, o Grupo de Telecomunicações a ele vinculado, com propostas de aplicações em óptica biomédica e medicina. Dada a importância deste assunto, o principal objetivo deste trabalho é estender a análise teórica de forças ópticas utilizando uma descrição simples, porém eficaz, e analítica de um feixe de Bessel truncado, isto é, gerado por abertura finita. Até onde sabemos, esta é a primeira tentativa de introduzir esta investigação dos feixes originais de Durnin na literatura, e, deste modo, temos a possibilidade de contribuir com uma análise inédita de um feixe de Bessel com características físicas reais. Com a modelagem matemática dos feixe de Bessel truncados em mãos, aplicamos o cálculo de forças nos regimes de óptica geométrica e de Rayleigh e analisamos o seu comportamento quando os feixes incidem em espalhadores dielétricos esféricos. Como resultado direto deste trabalho, publicamos dois artigos descrevendo as forças ópticas no regime de óptica geométrica e de Rayleigh que um feixe de Bessel truncado causa em uma partícula dielétrica esférica. Como resultados indiretos, publicamos dois artigos com os mesmos cálculos de forças, adotando classe de feixes chamada Frozen-Waves, que é uma superposição de feixes de Bessel de mesma frequência. / Since its origins at Bell Labs laboratories, during the 1970s, optical tweezers have been researched, developed and diversified by several research groups, both nationally and internationally, including in our department (Department of Electrical and Computing Engineering - SEL/EESC/USP), in particular the Telecom Group associated to it, with several proposals with applications of optical tweezers in different fields from medicine to biomedical optics. Given the importance of this field, our main goal is to extend the theoretical analysis of optical forces using a simplest - but effective - analytical description of truncated Bessel beams (i.e. beams that are generated by finite apertures). As far we know, this is the first attempt to introduce such analysis of the originals Durnin beams in the literature, thus, we may have the chance to contribute to an unpublished study of a truncated Bessel beam with real characteristics. With such mathematical model at hands, we calculate the forces exerted by the truncated Bessel beam in ray optics and Rayleigh regime and analyze their behavior when hits dielectric spherical particles. As direct result of this work, we have published two papers describing the optical forces in ray optics and Rayleigh regime that a truncated Bessel beam causes in a spherical dielectric particle. As indirect results, we have published two papers with the same force considerations, adopting a beam class called Frozen-Waves, which is a superposition of same frequency Bessel beams. Aprisionamento óptico Bessel beams Electromagnetism Eletromagnetismo Feixes de Bessel Feixes não difrativos Forças ópticas Non diffrative waves Optical forces Optical trapping
7	Análise de forças ópticas no aprisionamento de partículas esféricas utilizando superposições discretas de feixes de Bessel em óptica geométrica / Analysis of optical forces in the trapping of spherical particles using discrete superposition of Bessel beams in optical rays Amélia Moreira Santos 31 August 2017 (has links) Este trabalho é uma contribuição às análises de forças de aprisionamento óptico exercidas sobre partículas esféricas por superposições discretas de feixes de Bessel. Um estudo teórico-numérico foi realizado no regime de óptica geométrica, completando as pesquisas já realizadas com tais feixes e no caso escalar, tanto no regime de Rayleigh quanto através de um formalismo eletromagnético completo. Investigam-se padrões longitudinais de intensidade de possível interesse prático, com potenciais de fornecer múltiplas armadilhas ópticas simultâneas utilizando dois métodos de análise. O primeiro parte da observação de que no regime paraxial todos os raios associados aos feixes se encontram quase paralelos entre si quando se toma como aproximação uma superposição de raios paralelos que incidem completamente sobre um hemisfério do espalhador. Tal método, entretanto, é naturalmente restrito pelas forças transversais. O segundo, que torna mais confiáveis e precisas as predições acerca da componente longitudinal de força, adota procedimentos mais robustos que levam em consideração tanto a contribuição da pressão de radiação (força de espalhamento) quanto a força gradiente devido a gradientes locais de intensidade associados a raios não-paralelos. Assim, acredita-se que este trabalho traz como contribuição um reforço a esta classe específica e promissora de feixes não difrativos como feixes de luz interessantes para aplicações em aprisionamento e micromanipulação óptica. / This work is a contribution to the analyses of optical trapping forces exerted on spherical particles by discrete superpositions of Bessel beams. A theoretical-numerical study has been carried out in the ray optics regime, completing the pre-existing research performed with such beams, in the scalar case, both in the Rayleigh regime and through a complete electromagnetic formalism. We investigate longitudinal intensity patterns of possible practical interest with potential to provide multiple simultaneous optical traps, by using two methods of analysis. The first assumes that, in the paraxial regime, all rays associated to the beams are almost parallel to each other, taking a superposition of parallel rays that are completely incident on a hemisphere of the scatterer as a suitable approximation. Such a method, however, is naturally constrained by the transverse forces. The second one, which makes the predictions about the longitudinal force component more reliable and accurate, adopts more robust procedures that take into consideration the contribution of the radiation pressure (scattering force) as well as the gradient force due to local intensity gradients associated to non-parallel rays. Thus it is hoped that this work will contribute to reinforce this specific and promising class of non-diffractive beams as interesting light beams for applications in optical trapping and micromanipulation. Aprisionamento óptico Feixes de Bessel Frozen waves Óptica geométrica Pinças ópticas Bessel beams Frozen waves Optical trapping Optical tweezers Ray optics
8	Cálculo de forças em partículas dielétricas usando feixes de Bessel truncados nos regimes de óptica geométrica e de Rayleigh / Optical force calculations over dielectric particles using truncated Bessel beams on ray optics and Rayleigh regime Pedro Paulo Justino da Silva Arantes 31 August 2017 (has links) Desde a sua origem nos laboratórios do Bell Labs, durante a década de 70, pinças ópticas vêm sendo investigadas, desenvolvidas e diversificadas por vários grupos nacionais e internacionais incluindo, nos últimos anos, o nosso departamento (Departamento de Engenharia Elétrica e de Computação - SEL/EESC/USP) e, em particular, o Grupo de Telecomunicações a ele vinculado, com propostas de aplicações em óptica biomédica e medicina. Dada a importância deste assunto, o principal objetivo deste trabalho é estender a análise teórica de forças ópticas utilizando uma descrição simples, porém eficaz, e analítica de um feixe de Bessel truncado, isto é, gerado por abertura finita. Até onde sabemos, esta é a primeira tentativa de introduzir esta investigação dos feixes originais de Durnin na literatura, e, deste modo, temos a possibilidade de contribuir com uma análise inédita de um feixe de Bessel com características físicas reais. Com a modelagem matemática dos feixe de Bessel truncados em mãos, aplicamos o cálculo de forças nos regimes de óptica geométrica e de Rayleigh e analisamos o seu comportamento quando os feixes incidem em espalhadores dielétricos esféricos. Como resultado direto deste trabalho, publicamos dois artigos descrevendo as forças ópticas no regime de óptica geométrica e de Rayleigh que um feixe de Bessel truncado causa em uma partícula dielétrica esférica. Como resultados indiretos, publicamos dois artigos com os mesmos cálculos de forças, adotando classe de feixes chamada Frozen-Waves, que é uma superposição de feixes de Bessel de mesma frequência. / Since its origins at Bell Labs laboratories, during the 1970s, optical tweezers have been researched, developed and diversified by several research groups, both nationally and internationally, including in our department (Department of Electrical and Computing Engineering - SEL/EESC/USP), in particular the Telecom Group associated to it, with several proposals with applications of optical tweezers in different fields from medicine to biomedical optics. Given the importance of this field, our main goal is to extend the theoretical analysis of optical forces using a simplest - but effective - analytical description of truncated Bessel beams (i.e. beams that are generated by finite apertures). As far we know, this is the first attempt to introduce such analysis of the originals Durnin beams in the literature, thus, we may have the chance to contribute to an unpublished study of a truncated Bessel beam with real characteristics. With such mathematical model at hands, we calculate the forces exerted by the truncated Bessel beam in ray optics and Rayleigh regime and analyze their behavior when hits dielectric spherical particles. As direct result of this work, we have published two papers describing the optical forces in ray optics and Rayleigh regime that a truncated Bessel beam causes in a spherical dielectric particle. As indirect results, we have published two papers with the same force considerations, adopting a beam class called Frozen-Waves, which is a superposition of same frequency Bessel beams. Aprisionamento óptico Eletromagnetismo Feixes de Bessel Feixes não difrativos Forças ópticas Bessel beams Electromagnetism Non diffrative waves Optical forces Optical trapping
9	Etude des caractéristiques d'un faisceau contrôlé en polarisation après transmission à travers différentes nanostructures / Study of the characteristics of a polarization-controlled beam after transmission through different nanostructures Lombard, Emmanuel 24 February 2012 (has links) Dans ce travail, nous avons étudié l’interaction entre une lumière contrôlée en polarisation et deux structures sub-longueurs d’onde gravées dans un film métallique opaque, en utilisant la méthode de la « matrice de Mueller ». Tout d’abord, nous avons montré qu’un réseau concentrique de fentes sub-longueurs d’onde percées à travers le film permet de filtrer et de convertir une polarisation incidente, ce qui génère une polarisation radiale. Nous avons aussi montré sa capacité à générer des faisceaux de Bessel non-diffractifs J0 ou J2 à travers de telles structures, et à contrôler leur hélicité en changeant la polarisation circulaire en préparation ou en analyse. Ensuite, nous avons montré la création d’une cible plasmonique ayant les propriétés d’une lame quart d’onde, en travaillant sur l’ellipticité des anneaux – pour générer une phase plasmonique – etdu trou central – pour compenser les forts effets de dichroïsme induits par l’absorption différentielle des plasmons de surface. / In this work, we studied the interaction between light with well-defined polarization and two subwavelength structures milled through an opaque metallic film by using the « Mueller matrix » method. In a first part, we showed that a subwavelength annular concentric slit array, milled completely through the film, allows the filtering and conversion of the incident polarization,generating a radial polarization after transmission. We also showed that it was possible to generate non-diffracting J0 or J2 Bessel beams through such structures and to control their helicity by changing the circular polarization either in preparation or in analysis. In a second part, we showed the creation of a plasmonic bull’s eye structure having the same properties as a quarter wave-plate, by acting on the ellipticities of the rings - to generate a plasmonic phase - and of the central hole - to compensate the strong dichroïsm induced by the differential surface plasmon absorption. Nanostructures Plasmons de surface Polarisation Matrices de Mueller Faisceaux de Bessel Lame quart d’onde Nanostructures Surface plasmons Polarization Mueller matrices Bessel beams Quarter wave plate 535.5 620.5
10	Geração e caracterização de feixes possuindo momento angular orbital / Generation and characterization of beams possessing orbital angular momentum Silva, Willamys Cristiano Soares 21 November 2011 (has links) In this work, we develop a new technique to determine the topological charge of a light beam with orbital angular momentum. Our technique is based on the diffraction by a triangular aperture. By performing numerical simulations, for Laguerre-Gaus beams and Bessel beams with different values of l, we found tha the diffraction pattern contains the signature of the topological charge of the beam. Our theoretical predictions for a triangular aperture were experimentally verifiel, demonstrating the the diffraction pattern reveals the topological charge of the light beam. / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Neste trabalho, desenvolvemos uma nova técnica para determinar a carga topológica de um feixe de luz com momento angular orbital. Nossa técnica é baseada na difração por uma abertura triangular. Através da realização de simulações numérica, para feixes Laguerre-Gauss e feixes Bessel com diferentes valores de l, descobrimos que o padrão de difração contém a assinatura da carga topológica do feixe. Nossas previsões teóricas para uma abertura triangular foram verificadas experimentalmente, demonstrando que o padrão de difração revela a carga topológica do feixe de luz. Esta técnica torna possível a determinação do módulo e do sinal da carga topológica de um feixe de luz de uma maneira simples e direta. Difração Feixes Laguerre-Gauss Feixes Bessel Momento angular orbital Diffraction Laguerre-Gauss beams Bessel beams Orbital angular momentum CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

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