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Passive and active metamaterial-inspired nano-scale antennasZiolkowski, Richard W. 04 1900 (has links)
A variety of open and closed multi-layered nanoparticle structures have been considered analytically and numerically for their use as scatterers and radiators. These include metamaterial-inspired structures based on dielectrics and metals excited by either plane waves or electric Hertzian dipoles at optical frequencies. Both passive and active (gain impregnated dielectric) materials have been considered. Enhanced and mitigated scattering and radiating effects have been modeled. Nano-antenna and nano-amplifier configurations for optical applications have been emphasized. A review of these modeling efforts will be presented.
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Nano-émetteurs thermiques multi-spectraux / Multi-spectral thermal nano-emittersMakhsiyan, Mathilde 14 September 2017 (has links)
Les sources infrarouges sont indispensables à la détection locale de gaz dans de nombreux domaines, que ce soit pour l'environnement (détection de polluants et gaz à effets de serre) ou la défense (détection de menaces biologiques et chimiques). Elles sont également nécessaires en tant que mires de calibration pour le développement de caméras multispectrales infrarouges. Pour toutes ces applications, il est nécessaire de disposer de sources performantes, capables d'émettre un rayonnement spécifique dans une direction donnée. L'objectif de cette thèse est de concevoir des sources thermiques infrarouges compactes et à coût modéré, à spectre accordable et à pertes réduites, pouvant être juxtaposées dans un même dispositif. Pour cela, ces travaux s'organisent autour de deux axes. Le premier concerne l'étude de nouveaux matériaux nanostructurés résonants, appelés métamatériaux ou métasurfaces selon les directions de la structuration, permettant de contrôler l'émissivité spectrale et spatiale afin de maîtriser la réponse spectrale en tout point. Cette étude repose à la fois sur des simulations numériques et sur des mesures expérimentales et démontre le potentiel de ces résonateurs pour la conception de sources thermiques accordables. Cependant, ces matériaux étant composés de métal, ils présentent des pertes par absorption dans l'infrarouge qui limitent leurs performances. Le deuxième axe de recherche est alors de gérer les pertes liées à l'utilisation de métaux grâce à une ingénierie des champs dans des métamatériaux, menant à des émissions spectralement très fines. Les résultats obtenus sur ce contrôle des pertes ouvrent de nombreuses perspectives pour tout le domaine des métamatériaux. / Infrared sources are essential for local gas detection for civil applications (detection of pollutant and greenhouse gas) or military applications (detection of chemical and biological threats). They are also used as calibration targets for the development of multispectral infrared cameras. For these applications, the sources must be efficient and able to emit a specific light in a given direction. The aim of this thesis is to develop infrared thermal emitters with the following features: low cost with a compact volume, with a tunable spectral response and low losses, able to be juxtaposed on the same device. This work begins with the study of new resonant nanostructured materials, called metamaterials or metasurfaces according to the direction of the structuration, that spectrally and spatially control the emitted light up to the wavelength scale. This study relies on numerical simulations and experimental measurements and demonstrates the potential of these resonators as tunable thermal sources. However, due to the use of metals in these materials, their performance is limited by metal losses. The second study of this work is then to deal with these losses thanks to a field engineering in metamaterials, leading to very narrow spectral responses. The results on this loss control open up promising breakthroughs in the plasmonic and metamaterials field
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Estudo de antenas para comunicação na faixa de subterahertz / Study of antennas for communication in the subtherhtz bandSousa, Jonas Rodrigo da Silva 02 December 2016 (has links)
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Previous issue date: 2016-12-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The antennas in nano-metric scales are part of a line of research that has been gaining strength in recent years, being the target of numerous studies and publications in several universities in Brazil and around the world. Nano antennas are characterized as a promising new branch in the development of devices capable of being applied in different areas, in addition to communication. Occupying a prominent place in the new era of technologies, the nano antennas, here restricted only to dipole and microstrip, generate enormous expectations about this new revolution, not only between researchers, but also in a part of society. Currently, wireless communications require that radiator devices have wide bandwidth and miniaturization for mobile devices, so this dissertation discusses the potential application of antennas for communications in the frequency range in Terahertz. At these frequencies, there are numerous restrictions on the propagation of signals, so high performance antenna are necessary to allow communication with reduced losses. The purpose of this work is to study some configurations and types of antennas, such as microstrip antenna and dipole antenna, with application in the subterahertz frequency, which can be used, for example, in internal networks, medicine, photovoltaic power generation, spectroscopy, near-field microscopy and high quality images. Some configurations of antennas with various materials for communications in the frequency range will be presented to verify the feasibility of the use of nano dipole antennas and miniaturized microstrip antennas in this type of application. The methodology adopted suggests the comparison of the simulated results, through the software Ansoft HFSS ® and CST Microwave Studio ®, with the results of other published works / As antenas em escalas nanométrica fazem parte de uma linha de pesquisa que vem aumentando nos últimos anos, sendo alvo de inúmeros estudos e publicações. As nanoantenas caracterizam-se como um novo e promissor ramo no desenvolvimento de dispositivos capazes de ser aplicados em diferentes áreas, além da comunicação. Ocupando lugar de destaque na nova era das tecnologias, as nanoantenas, aqui restritas somente as de dipolo e microfita, geram enorme expectativas. Atualmente as comunicações sem fio requer que os dispositivos radiadores possuam uma ampla largura de banda e miniaturização para dispositivos móveis, assim, essa dissertação discute a aplicação potencial de antenas para comunicações na faixa de frequência em Terahertz. Nessas frequências existem inúmeras restrições na propagação de sinais, então antenas com alto rendimento são necessárias para permitir comunicação com perdas reduzidas. A proposta desse trabalho é estudar algumas configurações e tipos de antenas, tais como de antena de microfita e antena dipolo, com aplicação na faixa de frequência em subterahertz, que podem ser utilizadas, por exemplo, nas redes internas, medicina, na geração de energia fotovoltaica, espectroscopia, microscopia de campo próximo e obtenção de imagens de alta qualidade. Serão apresentadas algumas configurações de antenas e com diversos materiais para comunicações na faixa de frequência em questão, para verificar a viabilidade do uso de nanoantenas de dipolo e de antenas de microfita miniaturizadas neste tipo de aplicação. A metodologia adotada sugere a comparação dos resultados simulados, através dos softwares Ansoft HFSS ® e CST Microwave Studio ®, com os resultados de outros trabalhos publicados / 2017-07-14
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Etude et développement de nano-antennes fibrées pour la microscopie en champ proche optique et la nano-photonique / Study and development of fiber nano-antennas for scanning near-field optical microscopy and nano-photonicsMivelle, Mathieu 08 December 2011 (has links)
Dans la première partie de cette thèse, nous tirons parti du concept de nano-antenne optique afind'apporter une solution innovante au problème d'interprétation de la microscopie champ procheoptique (SNOM). En effet, il est connu que certaines nano-antennes développent des réponsesoptiques dipolaires. Dans cette thèse nous démontrons comment l’utilisation d’une nano-ouverturepapillon (nano-antenne dipolaire), à l’extrémité d’une pointe SNOM, permet de détecter et collecteruniquement une seule composante du champ proche électrique. Ce résultat est démontré d’unpoint de vue théorique par l’utilisation de simulation FDTD (Finite Difference Time Domain) et d’unpoint de vue expérimental par la caractérisation, par cette pointe innovante, d´échantillonsdiélectriques (réseaux, cristaux photoniques) et métalliques (milieux désordonnés plasmoniques).Dans une deuxième partie, nous démontrons comment la sonde développée dans la premièrepartie, peut être utilisée comme détecteur du signal émis par un nano-émetteurs (NE) unique. Il estétudié dans cette partie l’effet de couplage entre ces deux objets. Dans un premier temps, après ladescription complète des grandeurs caractéristiques d’un NE, nous démontrons théoriquementl’effet de la pointe sur la réduction du temps de vie de l’état excité et l’augmentation de lafluorescence d’un NE, en régime saturé et non saturé. Puis dans un deuxième temps nousdémontrons expérimentalement comment cette sonde réduit le temps de vie de l’état excité deboites quantiques placées à son extrémité, en comparaison de pointes SNOM plus conventionnellestelle que la pointe diélectrique et la pointe à ouverture circulaire. / In the first part of this manuscript, we use in our advantage the concept of optical nano-antennas, toget new solutions on the interpretation problems of scanning near-field optical microscope (SNOM)images. Indeed, it is known that some of the developed nano-antennas can express dipolarbehaviours. In this manuscript, we show how a bowtie nano-aperture (dipolar nano-antenna)embedded at the apex of a SNOM probe, can be used to detect and collect only one component ofthe electric near-field. This result is demonstrated as well theoretically, by the use of FDTD (FiniteDifference Time Domain) codes, as experimentally, by the characterisation with this tip, of dielectricsamples (diffraction grating and photonic crystals) and metallic ones (random plasmonic medium).In a second part, we show how the tip previously described, can be used as a detector of the signalfrom single emitter (SE). We study in this part the coupling and interactions between those twoobjects. After a full description of a two level system characteristics, we show theoretically the effectof our probe on the reduction of the excited state life time and the enhancement of thefluorescence of the SE, in both regime, saturated and non-saturated. Then we describeexperimentally how our special tip reduces the excited state life time of quantum dots placed at theapex of it, respect to more conventional SNOM probes as the dielectric and the circular apertureones.
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