Global ETD Search

1	Theoretical and Experimental Development of an Array of Droopy Bowties with Integrated Baluns Puzella, Angelo 20 June 2014 (has links) "Theoretical modeling, design, assembly, and measurement of a novel integrated phased array radiator are presented. The droopy bowtie turnstile radiator with quad line feed meets challenging radar requirements and uses low cost manufacturing and assembly techniques. This thesis develops the complete theoretical model (antenna, balun, feeding network) of a broadband phased array radiator: the droopy bowtie turnstile radiator. A novel quad line balun feed is developed that provides a low loss, high isolation, and coincident phase-center feeding network for the droopy bowtie. The radiator and feed design combines broadband RF performance and high-isolation dual-linear polarization in a low profile, compact package that enables wide scan volume performance versus frequency. This thesis develops low-cost manufacturing and assembly techniques applied to the droopy bowtie radiator with the quad line feed. The new radiator design would utilize low cost fabrication techniques such as injection molding and 3-D printing, and also leverages automated assembly techniques. Measurement prototypes and array prototypes of droopy bowtie radiators with the quad line feed are developed for L- and X-bands. The measurements demonstrate broadband RF performance in a low profile compact package viable for wide-scale phased array applications." baluns bowtie dual-poarized radiators phased arrays
2	The Design of a Resistively Loaded Bowtie Antenna for Applications in Breast Cancer Detection Systems See, Chan H., Abd-Alhameed, Raed, Chung, Siau Wei Jonis, Zhou, Dawei, Al-Ahmad, Hussain, Excell, Peter S. January 2012 (has links) A resistively loaded bowtie antenna, intended for applications in breast cancer detection, is adaptively modified through modelling and genetic optimization. The required wideband operating characteristic is achieved through manipulation of the resistive loading of the antenna structure, the number of wires, and their angular separation within the equivalent wire assembly. The results show an acceptable impedance bandwidth of 100.75%, with a challenge VSWR <; 2, over the interval from 3.3 GHz to 10.0 GHz. Feasibility studies were made on the antenna sensitivity for operation in a tissue-equivalent dielectric medium. The simulated and measured results are all in close agreement. REF 2014 Breast cancer detection Bowtie antenna
3	Comparison of Compact Very High Frequency (VHF) Antennas for Small Airborne Ground Penetrating Radar Livingston, Tayler Austen 25 July 2023 (has links) (PDF) UHF bands because more penetration can be achieved at low frequencies. Consequently, large antennas are required, which limits their use for small airborne applications. This thesis explores various GPR antenna designs for a bi-static system that are at least operational from 225 MHz to 255 MHz and suitable for small airborne applications. The 3D electromagnetic simulation software Ansys high-frequency structure simulator (HFSS) was used to simulate various sizes of strip dipole, triangular bowtie, half elliptical bowtie, and elliptical bowtie antennas. Several physical models were constructed to validate the return loss simulation results. Additionally, simulation data is included for a wire dipole and a helical antenna. The helical antenna proved to be too large for small airborne application, so focus was placed on the dipole and bowtie designs. The performance of the dipole and bowtie antenna models are compared by size, weight, return loss (ð‘†11), peak gain, and the transmit-to-receive isolation. Out of the fourteen simulated models, twelve meet the bandwidth requirement with an average weight of 0.23 lbs. It is found that the strip dipole exhibited wider bandwidth characteristics than the triangular, elliptical, and half elliptical bowtie models, while maintaining similar weight and size. The smallest strip dipole model is 50 mm x 528 mm x 1 mm, weighs 0.17 lbs, and is operational from 225 MHz to 283 MHz. Two strip dipole test antennas were fabricated and tested. Test results confirm the simulation predictions. triangular bowtie antenna half elliptical bowtie antenna elliptical bowtie antenna strip dipole antenna helical antenna VHF compact ground penetrating radar (GPR) Engineering
4	Development and Application of BowTie Risk Assessment Methodology for Carbon Geological Storage Projects Irani, Mazda Unknown Date No description available. Risk Assessmen Carbon Geological Storage BowTie Weyburn Project
5	Modeling of high electromagnetic field confinement metamaterials for both linear and non-linear applications / modelisation du confinement du champ electromagnétique à travers des matériaux pour des applications en optique linéaire et non linéaire Atie, Elie 22 December 2016 (has links) Notre recherche porte sur la réponse optique des nanostructures et nous sommes certainement intéressés à la modélisation de ces structures afin d'améliorer le confinement de la lumière. Ce confinement est un des paramètres qui conduisent à l'exaltation des effets optique linéaires et non linéaires, simultanément. Notre travail est divisé en deux sections, qui présentent deux effets optiques diffèrents basées sur le confinement des champs à l’intérieur du structure. Dans la première section, la réponse optique d’une nano-antenne à ouverture en forme de nœud papillon (BNA : Bowtie nano-aperture) sera étudiée en fonction de l’indice de réfraction du milieu. L’étude discute la variation de la longueur d’onde de résonance ainsi que l’intensité du champ confiné au milieu du gap de la BNA en fonction de la distance qui sépare l’antenne d’un substrat placé en face. L’étude prend le cas d’une BNA gravée au bout d’une fibre optique métallisée. Une étude numérique complète a été réalisée par des simulations numériques basées sur la méthode des différences finies FDTD-3D (Finite Difference Time Domaine – Three dimension). Le code utilisé est développé au sein du département d’Optique de l’Institut FEMTO-ST. Notre modèle numérique décrits bien la géométrie de l’antenne ainsi que la pointe. De même les propriétés optiques de la couche métallique de la sonde sont bien décrites à travers un modèle de dispersion (model de Drude). Une étude expérimentale a été réalisée en plus pour une validation des résultats collecte théoriquement, l’étude a considéré le cas de deux BNA avec des paramètres géométrique différents, néanmoins les résultats obtenues se correspond fortement aux résultats obtenues numériquement. Dans la deuxième partie, l'effet électro-optique des nanostructures sera étudié. L’effet électro-optique ou effet Pockels consiste d’une variation linéaire de l'indice de réfraction d'un milieu non-linéaire en fonction d'un champ électrique extérieur. Cependant, la variation est reliée au tenseur de susceptibilité non linéaire du deuxième ordre, ainsi, cette effet ce produit seulement dans les matériaux non-centrosymétrique. Dans notre étude les nanostructures sont fabrique avec le Niobate de Lithium (LN) qui est considéré comme le plus avantageux diélectrique pour l’exaltation des effets non linéaire grâce à ces propriétés (acousto-optique, électro-optique, piézoélectrique …). L’étude est complétée numériquement garce a des simulations basées sur la FDTD en tenant compte de la polarisation du champ. Au début, une validation de l’utilisation de la FDTD pour estimer l’effet électro-optique intrinsèque du LN a été achevée, l’étude considère un milieu homogène (pas de confinement des champs dans le milieu) qui a pour indice de réfraction celle du LN. Pour des structure qui présentes un confinement du champ plusieurs approximation ont été suggère dans cette partie. En outre, nous présentons un nouveau modèle auto-cohérent dans lequel la variation de l'indice de réfraction est modifiée au cours de la simulation. Plusieurs structure ont été discutés (réflecteur de Bragg, structure à cavité et 2D cristal photonique) qui présentent des facteurs de confinement différents. Une étude comparative entre les différentes méthodes, montre que la différence entre les résultats de chaque hypothèse devient plus important proportionnellement au facteur de confinement. / Our research is concerned with the optical response of nano-structures by modeling them in order to enhance the confinement of light in these structures, which leads to the exaltation of linear and nonlinear optical effects.Our work is divided into two sections, which are based on the enhancement of the electric field inside the structure. In the first section, we study the optical properties of a Bowtie Nano-aperture, BNA, as a function of the refractive index of the surrounding medium. The study discusses the variation of the resonance wavelength and the intensity of the enhanced field in the gap of the BNA as a function of the distance from a sample placed in front of our BNA. The BNA is engraved at the apex of a metallic coated fiber tip. In this section a theoretical study was achieved using the Finite Difference Time Domain method FDTD in which we implement a Drude dispersion model to faithfully describe the optical properties of metals. In addition, a validating experimental study was achieved and a high accordance between both results is recorded.In the second section, the electro optical effect of nano-structures is studied. Electro-optical effect or Pockels effect is the variation of the refractive index of a nonlinear media as a function of an applied external electric field. The electro-optical effect is a linear variation of the media refractive index. However it is also related to the second order nonlinear susceptibility tensor, thus it becomes a nonlinear effect that only occurs in non-centrosymetric material. In our study we chose the case of a nano-structure fabricated with Lithium Niobate. Lithium Niobate is widely used in photonic applications due to its electro-optical, acousto-optical and nonlinear optical properties. We present a theoretical study of the electro-optical effects using the FDTD simulation method. We started by approving the ability to use the FDTD to calculate the refractive index variation in bulk Lithium Niobate then we suggest different approximations to estimate the refractive index variation when the light is confined inside the structure. In addition we suggest a new self-consistent method in which the variation of the refractive index is modified during the simulation. The study shows a comparison between different assumptions (used in previous research) and the self-consistent method for various structures, like Bragg reflectors, cavity structures and 2D photonic crystals. The study shows that the difference between the results of each assumption becomes greater when the optical confinement in the structure becomes more important. FDTD Effet electro optique Bowtie nano antenne Crystal photonique Capteur Bowtie aperture Photonic crystal FDTD Electro optic effect Finite differential time domain method 535
6	A novel meander bowtie-shaped antenna with multi-resonant and rejection bands for modern 5G communications Faouri, Y.S., Ahmad, S., Ojaroudi Parchin, Naser, See, C.H., Abd-Alhameed, Raed 27 March 2022 (has links) Yes / To support various fifth generation (5G) wireless applications, a small, printed bowtie-shaped microstrip antenna with meandered arms is reported in this article. Because it spans the broad legal range, the developed antenna can serve or reject a variety of applications such as wireless fidelity (Wi-Fi), sub-6 GHz, and ultra-wideband (UWB) 5G communications due to its multiband characterization and optimized rejection bands. The antenna is built on an FR-4 substrate and powered via a 50-Ω microstrip feed line linked to the right bowtie’s side. The bowtie’s left side is coupled via a shorting pin to a partial ground at the antenna’s back side. A gradually increasing meandering microstrip line is connected to both sides of the bowtie to enhance the rejection and operating bands. The designed antenna has seven operating frequency bands of (2.43–3.03) GHz, (3.71–4.23) GHz, (4.76–5.38) GHz, (5.83–6.54) GHz, (6.85–7.44) GHz, (7.56–8.01) GHz, and (9.27–13.88) GHz. The simulated scattering parameter S11 reveals six rejection bands with percentage bandwidths of 33.87%, 15.73%, 11.71, 7.63%, 6.99%, and 12.22%, respectively. The maximum gain of the proposed antenna is 4.46 dB. The suggested antenna has been built, and the simulation and measurement results are very similar. The reported antenna is expanded to a four-element design to investigate its MIMO characteristics. / Partially funded by British Council “2019 UK-China-BRI Countries Partnership Initiative” program, with project titled “Adapting to Industry 4.0 oriented International Education and Research Collaboration. Multi-band UWB 5G communications Sub-6 GHz Notches Bowtie-shaped Multiband MIMO Time-domain analysis
7	Ferroelectric Barium Strontium Titanate Thin-Film Varactor Based Reconfigurable Antenna Pan, Kuan-Chang January 2011 (has links) No description available. Electrical Engineering Electromagnetics ferroelectric BST thin-film varactor reconfigurable antenna miniaturized CPW bowtie patch
8	Análise comparativa das propriedades ressonantes de nanopartículas e de nanoantenas bowtie de ouro de diferentes geometrias SANTOS, Thaís Lira Tavares dos 14 December 2012 (has links) Submitted by Hellen Luz (hellencrisluz@gmail.com) on 2017-10-05T17:23:22Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese_AnaliseComparativaPropriedades.pdf: 4858742 bytes, checksum: 37cfbac1727554800e29086a72f9b909 (MD5) / Rejected by Edisangela Bastos (edisangela@ufpa.br), reason: on 2017-10-10T17:05:40Z (GMT) / Submitted by Hellen Luz (hellencrisluz@gmail.com) on 2017-10-16T15:42:03Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese_AnaliseComparativaPropriedades.pdf: 4858742 bytes, checksum: 37cfbac1727554800e29086a72f9b909 (MD5) / Approved for entry into archive by Irvana Coutinho (irvana@ufpa.br) on 2017-10-16T16:44:32Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese_AnaliseComparativaPropriedades.pdf: 4858742 bytes, checksum: 37cfbac1727554800e29086a72f9b909 (MD5) / Made available in DSpace on 2017-10-16T16:44:32Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Tese_AnaliseComparativaPropriedades.pdf: 4858742 bytes, checksum: 37cfbac1727554800e29086a72f9b909 (MD5) Previous issue date: 2012-12-14 / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / Este trabalho apresenta uma análise comparativa das propriedades ressonantes de nanopartículas e de nanoantenas bowtie de ouro com novas geometrias triangulares. As geometrias propostas são as seguintes: geometrias triangulares com lados encurvados e geometrias triangulares com um dos seus vértices formado por três pontas. As propriedades investigadas são as respostas ressonantes, as distribuições espaciais do campo elétrico próximo e os comprimentos de onda ressonantes. A densidade de corrente dentro das nanoestruturas também é analisada para melhor entendimento do realce do campo elétrico próximo. Para o caso das nanoantenas bowtie, a pesquisa também é focada no estudo da influência de um substrato de dióxido de silício nas suas propriedades ressonantes e no estudo das suas características na região de campo distante (seção reta de espalhamento e diagrama de radiação). Os resultados numéricos são obtidos nas regiões do visível e do infravermelho próximo do espectro eletromagnético, simulados pela técnica de integração finita. Para as nanopartículas isoladas, esses resultados mostram que as geometrias sugeridas possuem intensidade de campo elétrico próximo em torno de 160% mais alta e comprimento de onda ressonante 15% deslocado para o vermelho, comparadas com a geometria triangular equilateral. Já no caso das nanoantenas bowtie, as novas geometrias possuem intensidade de campo elétrico próximo em torno de 90% mais alta e comprimento de onda ressonante 15% deslocado para o azul, comparadas com a nanoantena bowtie triangular equilateral. Os resultados deste trabalho podem servir para modelagem, fabricação e projeto de nanopartículas e de nanoantenas bowtie de ouro para diferentes aplicações, tais como microscopia e sensores de fibra óptica. / This work presents a comparative analysis of the resonant properties of gold nanoparticles and gold bowtie nanoantennas with new triangular geometries. The proposed geometries are as follows: the curved side triangular ones and the triangular geometries with one corner formed by three tips. The investigated properties are the resonant responses, the spatial distributions of the electric near-field and the resonant wavelengths. The current density inside the nanostructures is also analysed for better understanding of the electric near-field enhancement. For the case of bowtie nanoantennas, the research is also focused on the study of the influence of a silicon dioxide substrate on their resonant properties and on the study of their characteristics in the far-field region (scattering cross section and radiation pattern). The numerical results are obtained in the visible and near infrared regions of the electromagnetic spectrum, simulated by the finite integration technique. For isolated nanoparticles, these results show that the suggested geometries have electric near-field intensity around 160% higher and resonant wavelength redshifted by 15%, as compared to the equilateral triangular geometry. In the case of bowtie nanoantennas, the new geometries have electric near-field intensity 90% higher and resonant wavelength blueshifted by 15%, as compared to the triangular equilateral bowtie nanoantenna. The results of this work can serve for modeling, fabrication and designing of gold nanoparticles and gold bowtie nanoantennas for different applications, for example, microscopy and optical fibre sensors. Nanotecnologia – materiais Nanoplasmônica Nanopartículas de ouro Nanoantenas bowtie de ouro Propagação de ondas e antenas Teoria eletromagnética
9	A novel optical bio-chemical sensor based on hybrid nanostructures of Bowtie nanoantennas and Fabry-Perot Interferometer Liu, Huanhuan 20 November 2013 (has links) (PDF) Nowadays, the increasing concern for environmental analysis and food quality control, as well as medical needs such as fast diagnosis in case of emergency events, leads to a growing need for new generations of chemical and biological sensors. These devices should have high sensitivity and reliability, perform specific detection of molecules and enable multiple parallel sensing, while being cheap, portable, fast and easy to use. Thus, a general trend tends towards bio-chemical sensors which are on-chip integrated, label-free, and compatible with standard micro-technologies. Photonic dielectric devices based on porous silicon and metallic nanostructures based on plasmon resonances are good candidates to fulfill the above requirements. Porous silicon is a biocompatible material, with a huge specific surface providing a sensitivity enhancement by several orders of magnitude compared to bulk materials; furthermore, its refractive index and thickness can be easily tuned, enabling for the realization of a large variety of photonic designs. Metallic nanostructures provide high confinement and strong field enhancement in sub-wavelength regions, leading to high sensitivities; combined with fluorescence or other sensing mechanisms such as Raman or IR spectroscopy, they have already demonstrated increased sensing potential. The realization of a hybrid device combining both elements would be highly interesting, since it could yield the advantages of both elements, and the photonic structure could shape the plasmonic resonance to develop ultrasensitive devices with narrow resonance linewidth and increased sensing depth. In this context, we realized and studied a novel hybrid photonic / plasmonic device exploiting the coupling between the surface plasmon resonance of a bowtie nano - antenna (NAs) array and the photonic modes of porous silicon (PSi) interferometer. We designed and fabricated a NAs array with resonance wavelength ~ 1.3μm on a homogeneous PSi interferometer. A thin spacing silica layer with controllable density protects the pores of PSi layer and provides a smooth surface for the fabrication of NAs. The coupling mechanisms of two elements - NA array and interferometer, are studied with 2 models, which are interferometer approach and resonator approach. The interferometer approach is focused on studying the influence of NAs array as a homogeneous layer on the fringes shift of the interferometer. For resonator approach, the coupled mode theory is applied. With these models, strong coupling between both elements are discovered: splitting. In the case of viii smaller environment variation, the hybrid device gains 5-10 fold sensitivity enhancement vs. 2 elements alone. The controllable SiO2 layer allows us to sense the index variation within PSi interferometer. This opens a route towards double parallel sensing. The development of the theoretical models under different environment is ongoing, which is expected to utilize the strong coupling for the sensing. A further investigation of the sensing potential of the hybrid device would be expected. And the 2 elements constituting the hybrid structure - the interferometer and the NA array - could be modified in order to enlarge the study to a wider family of devices with greater properties and performances. This work was performed within the framework of the program "Groups of Five Ecoles Centrales" between China Scholarship Council (CSC) and Lyon Institute of Nanotechnologies (INL, CNRS UMR 5270). The project has been supported by the Nanolyon technology platform at INL. [SPI:OTHER] Engineering Sciences/Other Bowtie nano-antenna Porous silicon Interferometer Plasmonic/photonic hybrid device Sensing
10	Možnosti managementu rizik zkušebních laboratoří v kontextu revidovaných norem systémů managementu / Risk Management Options for Testing Laboratories in the Context of Revised Standards of Management Systems Suchý, Ivo January 2018 (has links) The diploma thesis deals with analysis and assessment of risks in testing laboratories, where the work with risks is an unrecognized area. A part of the thesis defines risks according to standard revision 17025:2017. Subsequently, these risks are processed by selected methods, which are used for qualitative and quantitative evaluation. Risks determination in the thesis is based on methods Risk Matrix, Failure Modes & Effects Analysis (FMEA) and Bow Tie Analysis. Introducing possibilities and patterns of described methods to testing laboratories is the main aim of the thesis, this could be a way to increase their chance to get a new accreditation.

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