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111	Beschleunigerphysik und radiometrische Eigenschaften supraleitender Wellenlängenschieber Scheer, Michael 13 February 2009 (has links) Die vorliegende Arbeit behandelt die radiometrische Nutzung von Wellenlängenschiebern an Elektronenspeicherringen. Die grundsätzlichen Aspekte der Radiometrie, der technischen Voraussetzungen und des Einflusses von Wellenlängenschiebern auf den Speicherring werden am Beispiel eines bei BESSY installierten Gerätes aufgezeigt. Ein Großteil der Rechnungen wurden mit dem Programm WAVE durchgeführt, das im Rahmen der Arbeit entwickelt wurde. WAVE erlaubt die Berechnung der Synchrotronstrahlung von Wellenlängenschiebern mit einer relativen Unsicherheit von 1/100000. Maschinenphysikalische Eigenschaften eines Wellenlängenschiebers und eine Erzeugenden-Funktion für symplektische Tracking-Rechnungen können ebenfalls mit WAVE berechnet werden. Letztere wurden in den Tracking-Code BETA implementiert. Damit lassen sich die Einflüsse von Insertion Devices auf die dynamische Apertur und die Emittanz des Speicherringes untersuchen. Die Ergebnisse dieser Studien führten zum Konzept alternierender High- und Low-Beta-Sektionen, die den Betrieb supraleitender Insertion Devices bei BESSY-II ohne signifikante Störung der Speicherringoptik ermöglichen. Um auch die experimentelle Seite der Radiometrie an Wellenlängenschiebern zu untersuchen, wurde ein Programm auf der Basis des Monte-Carlo-Codes GEANT4 entwickelt. Es erlaubt die Simulation der radiometrischen Messung und der Absorptionseigenschaften des Detektors. Mit den entwickelten Programmen wurden erste radiometrische Messungen der PTB analysiert. Ein Vergleich zwischen Messungen und Rechnung zeigt eine zufriedenstellende Übereinstimmung mit Abweichungen von ca. fünf Prozent für Messungen im Energiebereich zwischen 40 keV und 120 keV hinter einem 1-mm-Kupferfilter. Eine bessere Übereinstimmung wurde im Bereich von 20 - 80 keV ohne Kupferfilter erzielt. In diesem Fall stimmen die gemessenen Daten im Rahmen der systematischen Unsicherheiten von zwei Prozent mit den Rechnungen überein. / Subject of this thesis are the operation of wave-length shifters at electron storage rings and their use in radiometry. The basic aspects of the radiometry, the technical requirements, the influence of wave-length shifters on the storage ring, and results of first measurements are presented for a device installed at BESSY. Most of the calculations are carried out by the program WAVE, which has been developed within this thesis. WAVE allows to calculate the synchrotron radiation spectra of wave-length shifters within an relative uncertainty of 1/100000. The properties of wave-length shifters in terms of accelerator physics as well as a generating function for symplectic tracking calculations can also be calculated by WAVE. The later was implemented in the tracking code BETA to investigate the influence of insertion devices on the dynamic aperture and emittance of the storage ring. These studies led to the concept of alternating low- and high-beta-sections at BESSY-II, which allow to operate superconducting insertion devices without a significant distortion of the magnetic optics. To investigate the experimentel aspects of the radiometry at wave-length shifters, a program based on the Monte-Carlo-code GEANT4 has been developed. It allows to simulate the radiometrical measurements and the absorption properties of detektors. With the developed codes first radiometrical measurements by the PTB have been analysed. A comparision of measurements and calculations show a reasonable agreement with deviations of about five percent in the spectral range of 40 - 60 keV behind a 1-mm-Cu filter. A better agreement was found between 20 keV and 80 keV without Cu filter. In this case the measured data agreed within a systematic uncertainty of two percent with the results of the calculations. Metrologie Wellenlängenschieber Synchrotronstrahlung Elektronenspeicherring BESSY Radiometrie metrology wavelength shifter synchrotron radiation electron storage ring BESSY radiometry 530 Physik 29 Physik, Astronomie ddc:530
112	Design-Studie für einen kompakten Niederenergie-Elektronenspeicherring für die Radiometrie im Uv/VUV Spektralbereich Abo-Bakr, Michael 09 October 2000 (has links) Inhalt dieser Arbeit ist die Design-Studie für einen kompakten Niederenergie-Elektronenspeicherring für die Radiometrie. Im Ring sollen Elektronen mit Energien im Bereich von 200 MeV bis 600 MeV gespeichert werden können, wobei die Emittanz möglichst klein und die Strahllebensdauer über den gesamten Energiebereich bei einem Strom von 100 mA mindestens eine Stunde sein sollten.Diese Vorgaben wurden in Abstimmung mit einem der potentiellen Hauptnutzer, der Physikalisch-Technische Bundesanstalt (PTB), festgelegt und sollen den Speicherring zu einer optimalen Synchrotronstrahlungsquelle für die Radiometrie im ultravioletten und vakuumultravioletten Spektralbereich mit Photonenenergien zwischen etwa 5 eV und 200 eV machen. Im Rahmen dieser Arbeit werden die aus physikalischer Sicht wichtigsten Teilsysteme eines Speicherringes konzeptioniert: Magnetoptik, Hochfrequenz-, Vakuum-, Diagnose- und Injektionssystem sowie die Magnetauslegung. Außerdem werden die zu erwartenden Synchrotronstrahlungsspektren berechnet. Der entworfene Speicherring hat einen Umfang von 34.2 m und besteht aus zwei "Triple Bend Achromat"-Bögen, die durch gerade Strecken miteinander verbunden sind. In eine dieser geraden Strecken kann ein maximal 5.6 m langes "Insertion Device" eingebaut werden, die andere ist durch die Injektionselemente und das Hochfrequenz-Cavity belegt. Insgesamt können mit dem Design des hier vorgestellten Speicherringes alle gestellten Anforderungen erfüllt werden: die natürliche Emittanz ist vergleichsweise niedrig und liegt bei günstigen linearen und nichtlinearen Eigenschaften der Magnetoptik nah an ihrem minimal möglichen Wert. Mit der gewählten Auslegung von Magnetoptik, Hochfrequenz- und Vakuumsystem beträgt die Strahllebensdauer mit einem Speicherringstrom von 100 mA bei niedrigen Elektronenenergien zwischen (200...300)MeV etwas über eine Stunde und steigt auf mehr als sechs Stunden bei der Maximalenergie von 600 MeV. Die Strahllebensdauer übertrifft damit im gesamten Energiebereich die Vorgabe. / The subject of this work is the preparation of a design study for a compact low energy electron storage ring for radiometry in the ultraviolet and vacuum ultraviolet spectral range. Electrons with energies between 200 MeV and 600 MeV are to be stored. A small natural emittance is desired and the lifetime of a stored electron beam of 100 mA should not be less than one hour in the considered energy range. These major guidelines have been fixed in cooperation with one of the potential main users, the Physikalisch Technische Bundesanstalt (PTB), to optimize the storage ring for radiometric applications in the ultraviolet and vacuum ultraviolet spectral range with photon energies from approximately 5 eV to 200 eV. In this work the physical layout for the most important subsystems is given: magnet optics, rf-, vacuum-, diagnostic and injection system as well as the main magnet design. Additionally the expected synchrotron radiation spectra are calculated. The storage ring has a circumference of 34.2 m and consists of two Triple Bend Achromat cells, connected by two long straight sections. In one of these straight sections a 5.6 m long insertion device can be build in. The other one is occupied by the injection elements and the rf-cavity. All aspired guidelines are feasible with the presented storage ring design: the natural emittance is comparably small and with good linear and nonlinear optical properties close to its minimum value. With the presented solution (magnet optics, rf- and vacuum-system) the electron beam lifetime with 100 mA ring current is slightly above one hour at energies between (200...300) MeV and increases to more than 6 hours at the maximum energy of 600 MeV. Thus beam lifetime exceeds the guidelines at all energies. Elektronenspeicherring Synchrotronstrahlung Radiometrie Design-Studie electron storage ring synchrotron radiation radiometry design study 530 Physik 29 Physik, Astronomie UN 6250 ddc:530
113	Performance of several diagnostic systems on detection of occlusal primary caries in permanent teeth / In Vitro Performance of ICDAS, QLF and PTR/LUM on the Detection of Primary Occlusal Caries on Permanent Posterior Human Teeth and Under the Opaque Resin Sealant. Jallad, Mahmoud January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) Indiana University School of Dentistry Master Degree Thesis. / Detection of caries at an early stage is unequivocally essential for early preventive intervention. Longitudinal assessment of caries lesions, especially under the opaque preventive sealant, would be of utmost importance to the dental community. OBJECTIVES: The aim of this two-part in-vitro study is to evaluate the performance of multiple detection methods: The International Caries Detection and Assessment System (ICDAS); two quantitative light-induced fluorescence systems QLF; Inspektor™ Pro and QLF-D Biluminator™2 (Inspektor Research Systems B.V.; Amsterdam, The Netherlands); and photothermal radiometry and modulated luminescence (PTR/LUM) of The Canary System® (Quantum Dental Technologies; Toronto, Canada). All these are to be evaluated on their detection of caries on posterior human permanent teeth for 1) of primary occlusal lesions, and 2) under the sealant of primary occlusal lesions. METHODS: One hundred and twenty (N = 120) human posterior permanent teeth, selected in compliance with IU-IRB “Institutional Review Board” standards, with non-cavitated occlusal lesions ICDAS (scores 0 to 4) were divided into two equal groups. The second group (N = 60) received an opaque resin dental sealant (Delton® Light-Curing Pit and Fissure Sealant Opaque, Dentsply, York, PA). All lesions were assessed with each detection method twice in a random order except for ICDAS, which was not used following the placement of the sealant. Histological validation was used to compare methods in regard to sensitivity, specificity, % correct, and the area under receiver- operating characteristic curve (AUC). Intra-examiner repeatability and inter-examiner agreement were measured using intraclass correlation coefficient (ICC). RESULTS: 1) Of primary occlusal lesions, sensitivity, specificity, and AUC values were respectively: 0.82, 0.86 and 0.87 (ICDAS); 0.89, 0.60 and 0.90 (Inspektor Pro); 0.96, 0.57 and 0.94 (QLF-D Biluminator 2); and 0.85, 0.43 and 0.79 (The Canary System). Intra-examiner repeatability and inter-examiner agreement were respectively: 0.81 to 0.87: 0.72 (ICDAS); 0.49 to 0.97: 0.73 (Inspektor Pro); 0.96 to 0.99: 0.96 (QLF-D Biluminator 2); and 0.33 to 0.63: 0.48 (The Canary System). 2) Of primary occlusal lesions under the opaque dental sealants, sensitivity, specificity, and AUC values were respectively: 0.99, 0.03 and 0.67 (Inspektor Pro); 1.00, 0.00 and 0.70 (QLF-D Biluminator 2); and 0.54, 0.50 and 0.58 (The Canary System). Intra-examiner repeatability and inter-examiner agreement were respectively: 0.24 to 0.37: 0.29 (Inspektor Pro); 0.80 to 0.84: 0.74 (QLF-D Biluminator 2); and 0.22 to 0.47: 0.01 (The Canary System). CONCLUSION: Limited to these in-vitro conditions, 1) ICDAS remains the method of choice for detection of early caries lesion due to its adequately high accuracy and repeatability. QLF systems demonstrate potential in longitudinal monitoring due to an almost perfect repeatability of QLF-D Biluminator 2. The Canary System performance and repeatability were not acceptable as a valid method of early caries detection. 2) None of the methods demonstrated acceptable ability in detecting of occlusal caries under the opaque sealant. However, QLF-D Biluminator 2, with limitation to these in-vitro conditions and Delton opaque sealant, demonstrated a fair accuracy AUC (0.70) in detecting of caries under sealants at an experimental threshold of 12.5% ΔF. Caries Detection ICDAS PTR/LUM QLF QLF-D The Canary System Inspektor Pro Opaque Resin Sealant Under Sealant Human Teeth Occlusal Caries In Vitro Quantified Light-Induced Fluorescence Dental Caries -- diagnosis Dental Caries Activity Tests -- methods Fluorescence -- diagnostic use Light -- diagnostic use Radiometry -- methods Luminescent Measurements -- methods
114	Estudo e desenvolvimento dos parâmetros de projeto de um radiômetro solar multiespectral baseado em filtro de interferência variável aplicável ao sensoriamento ambiental e de aerossóis. / Study and development of the design parameters of a multispectral solar radiometer based on variable interference filter applicable to environmental sensing and aerosols. André Cozza Sayão 05 February 2015 (has links) Neste trabalho são apresentados os resultados do estudo e desenvolvimento dos parâmetros de projeto de um radiômetro solar multiespectral (RSME), baseado em Filtros de Interferência Variável (FIV) de banda-passante que incorpora uma camada ressoante de Fabry-Perot, inclinada em forma de cunha, sintonizável dentro da área opticamente ativa do FIV, aplicável ao sensoriamento ambiental e de aerossóis. Foi apresentada a teoria proposta para a simulação, projeto e deposição pelo método interativo (simulações associada às avaliações de deposições). O FIV foi parametrizado para o RSME, mas pode atender outras aplicações em sensores multicanais e multiespectrais. A construção dos FIV exigiu estudos e adaptações das técnicas clássicas de deposição de filmes finos e de microeletrônica, foi utilizada a PVD/E-Beam. É apresentado um estudo e o emprego de simulações matemáticas e softwares, aplicáveis a FI convencionais correlatas aos FIVs. Estes softwares foram aplicados e avaliados em relação ao projeto dos FIV. Avaliamos a técnica empregada que produz a inclinação na espessura dos FIVs em uma monocamada de 600 nm com um Perfilômetro do LME. Os FIVs caracterizados opticamente com espectrofotômetros, apresentam uma área opticamente ativa de varredura de 120,5 nm no espectro eletromagnético, entre os canais 475,5 nm a 596 nm, pertencentes a 17,3 mm de extensão do FIV. O FIV é um dispositivo óptico projetado com espessura em cunha provocando a resposta espectral linear para a transmitância, com uma taxa de 6,97 nm/mm na sua extensão. Foi proposto que os FIVs caracterizados em conjunto com PD de um PDA, difusor e lente, formem um conjunto detector conectado a um módulo de pré-processamento e coleta de dados (módulo eletrônico) formando assim o RSME parametrizado. O RSME proposto foi avaliado utilizando o FIV02 que opera numa faixa opticamente ativa entre (600 nm a 715 nm), um PDA modelo TSL1401 com 128 PD e um microcontrolador Arduino UNO para o gerenciamento da detecção. Os resultados apontam que o instrumento faz medições equivalentes a outro espectrofotômetro de referência quando medindo um feixe monocromático em 655,4 nm, mas com resolução mais estreita de 0,13 nm por canal. Foi apontada também a necessidade de instrumentação dedicada para outras caracterizações ópticas dos FIV, do conjunto detector do RSME e para a sua calibração. / This paper presents the results of the study and development of the design parameters of a Multi-Spectral Solar Radiometer (MSSR), based on Variable Interference Filter (VIF) pass-bad which incorporates a resonant layer Fabry-Perot inclined in form wedge, tunable within the optically active area of VIF, applicable to enviro nmental sensing and aerosols. The theory proposed was presented for the simulation, design and deposition by interactive method (associated with reviews of depositions simulations). The VIF was parameterized for the MSSR, but can serve other applications in multi-channel and multispectral sensors. The construction of VIF required studies and adaptations of the classic techniques of thin film deposition and microelectronic, was used the PVD / E-Beam. A study and the use of mathematical and simulation software, related to VIFs applicable to conventional IF appears. This software were applied and assessed in relation to the design of VIF. We evaluate the technique that produces the slope in the thickness of VIFs in a monolayer of 600 nm with a LMEs Surface Profiler. The VIFs characterized optically with spectrophotometers, can present an optically active area scanning 120,5 nm of the electromagnetic spectrum between channels 475,5 nm to 596 nm, belonging to 17,3 mm extension of VIF. FIV is an optical device designed with wedge-shaped thickness resulting in the linear transmittance for the spectral response with a 6,97 nm/mm in extension rate. It was proposed that VIFs characterized together with PD of a PDA, diffuser and lens form a detector module connected to a set of pre-processing and data collection (electronic module) thus forming the parameterized MSSR. The proposed MSSR was assessed using the VIF02 which operates a range of optically active (600 nm to 715 nm), a PDA model TSL1401 with PD 128 and Arduino UNO microcontroller to manage the detection. The results indicate that the instrument is equivalent to other reference spectrophotometer measurements, when measuring a monochromatic beam at 655,4 nm, but with narrower 0,13 nm resolution by channel. It was also pointed out the necessity of dedicated instrumentation for optical characterizations of other VIF MSSR detector assembly and the calibration. Espectrofotometria Espectroscopia óptica Filmes finos Medidas ambientais Processos de microeletrônica Profundidade óptica dos aerossóis Radiometria espectral solar Aerosol optical depth Environmental analysis Optical spectroscopy Optical variable interference filters Processes microelectronics Solar spectral radiometry Spectrophotometry Thin film
115	Estudo e desenvolvimento dos parâmetros de projeto de um radiômetro solar multiespectral baseado em filtro de interferência variável aplicável ao sensoriamento ambiental e de aerossóis. / Study and development of the design parameters of a multispectral solar radiometer based on variable interference filter applicable to environmental sensing and aerosols. Sayão, André Cozza 05 February 2015 (has links) Neste trabalho são apresentados os resultados do estudo e desenvolvimento dos parâmetros de projeto de um radiômetro solar multiespectral (RSME), baseado em Filtros de Interferência Variável (FIV) de banda-passante que incorpora uma camada ressoante de Fabry-Perot, inclinada em forma de cunha, sintonizável dentro da área opticamente ativa do FIV, aplicável ao sensoriamento ambiental e de aerossóis. Foi apresentada a teoria proposta para a simulação, projeto e deposição pelo método interativo (simulações associada às avaliações de deposições). O FIV foi parametrizado para o RSME, mas pode atender outras aplicações em sensores multicanais e multiespectrais. A construção dos FIV exigiu estudos e adaptações das técnicas clássicas de deposição de filmes finos e de microeletrônica, foi utilizada a PVD/E-Beam. É apresentado um estudo e o emprego de simulações matemáticas e softwares, aplicáveis a FI convencionais correlatas aos FIVs. Estes softwares foram aplicados e avaliados em relação ao projeto dos FIV. Avaliamos a técnica empregada que produz a inclinação na espessura dos FIVs em uma monocamada de 600 nm com um Perfilômetro do LME. Os FIVs caracterizados opticamente com espectrofotômetros, apresentam uma área opticamente ativa de varredura de 120,5 nm no espectro eletromagnético, entre os canais 475,5 nm a 596 nm, pertencentes a 17,3 mm de extensão do FIV. O FIV é um dispositivo óptico projetado com espessura em cunha provocando a resposta espectral linear para a transmitância, com uma taxa de 6,97 nm/mm na sua extensão. Foi proposto que os FIVs caracterizados em conjunto com PD de um PDA, difusor e lente, formem um conjunto detector conectado a um módulo de pré-processamento e coleta de dados (módulo eletrônico) formando assim o RSME parametrizado. O RSME proposto foi avaliado utilizando o FIV02 que opera numa faixa opticamente ativa entre (600 nm a 715 nm), um PDA modelo TSL1401 com 128 PD e um microcontrolador Arduino UNO para o gerenciamento da detecção. Os resultados apontam que o instrumento faz medições equivalentes a outro espectrofotômetro de referência quando medindo um feixe monocromático em 655,4 nm, mas com resolução mais estreita de 0,13 nm por canal. Foi apontada também a necessidade de instrumentação dedicada para outras caracterizações ópticas dos FIV, do conjunto detector do RSME e para a sua calibração. / This paper presents the results of the study and development of the design parameters of a Multi-Spectral Solar Radiometer (MSSR), based on Variable Interference Filter (VIF) pass-bad which incorporates a resonant layer Fabry-Perot inclined in form wedge, tunable within the optically active area of VIF, applicable to enviro nmental sensing and aerosols. The theory proposed was presented for the simulation, design and deposition by interactive method (associated with reviews of depositions simulations). The VIF was parameterized for the MSSR, but can serve other applications in multi-channel and multispectral sensors. The construction of VIF required studies and adaptations of the classic techniques of thin film deposition and microelectronic, was used the PVD / E-Beam. A study and the use of mathematical and simulation software, related to VIFs applicable to conventional IF appears. This software were applied and assessed in relation to the design of VIF. We evaluate the technique that produces the slope in the thickness of VIFs in a monolayer of 600 nm with a LMEs Surface Profiler. The VIFs characterized optically with spectrophotometers, can present an optically active area scanning 120,5 nm of the electromagnetic spectrum between channels 475,5 nm to 596 nm, belonging to 17,3 mm extension of VIF. FIV is an optical device designed with wedge-shaped thickness resulting in the linear transmittance for the spectral response with a 6,97 nm/mm in extension rate. It was proposed that VIFs characterized together with PD of a PDA, diffuser and lens form a detector module connected to a set of pre-processing and data collection (electronic module) thus forming the parameterized MSSR. The proposed MSSR was assessed using the VIF02 which operates a range of optically active (600 nm to 715 nm), a PDA model TSL1401 with PD 128 and Arduino UNO microcontroller to manage the detection. The results indicate that the instrument is equivalent to other reference spectrophotometer measurements, when measuring a monochromatic beam at 655,4 nm, but with narrower 0,13 nm resolution by channel. It was also pointed out the necessity of dedicated instrumentation for optical characterizations of other VIF MSSR detector assembly and the calibration. Aerosol optical depth Environmental analysis Espectrofotometria Espectroscopia óptica Filmes finos Medidas ambientais Optical spectroscopy Optical variable interference filters Processes microelectronics Processos de microeletrônica Profundidade óptica dos aerossóis Radiometria espectral solar Solar spectral radiometry Spectrophotometry Thin film
116	Θεωρητική ανάλυση και πειραματική μελέτη ενός παθητικού μικροκυματικού συστήματος για διαγνωστικές εφαρμογές με χρήση ραδιομετρίας Καραθανάσης, Κωνσταντίνος 17 September 2008 (has links) Η εφαρμογή της μικροκυματικής ραδιομετρίας έχει επεκταθεί στο χώρο της ιατρικής, καθότι τα τελευταία χρόνια γίνονται έρευνες με σκοπό την εκμετάλλευση των ιδιοτήτων της μεθόδου στη διαγνωστική αλλά και στη θεραπευτική ιατρική. Στα πλαίσια μιας διδακτορικής διατριβής που εκπονήθηκε στο Εργαστήριο Μικροκυμάτων και Οπτικών Ινών (ΕΜΟΙ) της σχολής Ηλεκτρολόγων Μηχανικών και Μηχανικών Υπολογιστών του Εθνικού Μετσόβιου Πολυτεχνείου και ολοκληρώθηκε το 2003, κατασκευάστηκε ένα τρισδιάστατο σύστημα παθητικής μικροκυματικής ραδιομετρικής απεικόνισης (ΜiRaIS) για διαγνωστικές εφαρμογές εγκεφάλου. Στη συγκεκριμένη μέθοδο χρησιμοποιείται μια αγώγιμη ελλειψοειδής κοιλότητα, ώστε να επιτευχθεί μέγιστη συγκέντρωση και εστίαση ακτινοβολίας που εκπέμπει το φυσικό σώμα ενδιαφέροντος, σε συνδυασμό με ραδιομετρικούς δέκτες ολικής ισχύος και ομοιοκατευθυντικές κεραίες λήψης στο φάσμα συχνοτήτων 1-4GHz. Στην παρούσα διπλωματική εργασία γίνεται θεωρητική και πειραματική μελέτη ενός νέου μικροκυματικού ραδιομετρικού συστήματος. Η αρχή λειτουργίας του είναι όμοια με αυτήν του MiRaIS, δηλαδή πλήρως παθητική και μη επεμβατική. Η βασική διαφορά του είναι ότι χρησιμοποιεί μια τροποποιημένη ελλειψοειδή κοιλότητα η οποία βελτιώνει την εργονομία του συστήματος διατηρώντας παράλληλα της ιδιότητες εστίασης του πρωτότυπου ελλειψοειδούς. Στη θεωρητική μελέτη, με τη βοήθεια του λογισμικού High Frequency Structure Simulation (HFSS) που βασίζεται στη μέθοδο των πεπερασμένων στοιχείων, αναλύονται δυο μέθοδοι για τη βελτίωση των ιδιοτήτων εστίασης του συστήματος (πχ. βάθος διείσδυσης της ακτινοβολίας, χωρική διακριτική ικανότητα) με τη χρήση διηλεκτρικών υλικών και υλικών με αρνητικό δείκτη διάθλασης (Left Handed Materials-LHM). Στην πρώτη περίπτωση, τα υλικά αυτά χρησιμοποιούνται ως στρώματα προσαρμογής που τοποθετούνται γύρω από το μοντέλο κεφαλιού για την επίτευξη βηματικής αλλαγής του δείκτη διάθλασης στη διεπιφάνεια αέρα-μοντέλου ανθρώπινου κεφαλιού. Στη δεύτερη προσέγγιση του προβλήματος, χρησιμοποιείται μια σφαίρα από διηλεκτρικό σε συνδυασμό με ένα στρώμα προσαρμογής από LHM για την καλύτερη εστίαση του συστήματος. Προς την ίδια κατεύθυνση, στη δεύτερη αυτή περίπτωση χρησιμοποιείται επίσης ένας ελλειψοειδής ανακλαστήρας μειωμένου όγκου το εσωτερικό του οποίου είναι γεμάτο με διηλεκτρικό με χαμηλές απώλειες, με τα αποτελέσματα να δείχνουν σημαντική βελτίωση της χωρικής διακριτικής ικανότητας του συστήματος. Η πειραματική διάταξη τοποθετήθηκε σε ανηχοϊκό θάλαμο όπου και πραγματοποιήθηκαν όλες οι μετρήσεις. Στις πειραματικές διαδικασίες που ακολουθήθηκαν, χρησιμοποιήθηκαν ομοιώματα νερού (phantoms) σε διάφορα μεγέθη και θερμοκρασίες για την επιβεβαίωση της διατήρησης των ιδιοτήτων εστίασης του νέου ελλειψοειδούς ανακλαστήρα. Επίσης, διενεργήθηκαν μετρήσεις με στρώματα προσαρμογής φτιαγμένα από διηλεκτρικά υλικά, τα οποία τοποθετούνταν γύρω από το αντικείμενο ενδιαφέροντος, για την πληρέστερη κατανόηση της επίδρασης των υλικών αυτών στις ιδιότητες εστίασης του συστήματος και για την επιβεβαίωση των αντίστοιχων θεωρητικών αποτελεσμάτων. / In the framework of a PhD thesis which was completed in the Laboratory of Microwaves and Fiber Optics (MFOL), School of Electrical and Computer Engineering, National Technical University of Athens (NTUA) in 2003, a Three Dimensional Passive Microwave Radiometry Imaging System (MiRaIS) was designed and constructed for brain diagnostic applications. The novelty of the proposed methodology consists in the use of a conductive ellipsoidal cavity to achieve maximum peak of radiation pattern in order to measure the intensity of the microwave energy, radiated by the medium of interest, by using two microwave total power radiometers and relevant non-contacting antennas within the range of 1-4GHz. In the present thesis, a new microwave radiometry system is theoretically and experimentally studied. It has the same operation principal with MiRaIS as it operates in an entirely non-invasive and passive manner. Its main difference is that it comprises a modified ellipsoidal cavity which improves the system’s ergonomy preserving the focusing properties of the original cavity. In the theoretical study, two methods for the improvement of the system’s focusing properties (e.g. penetration depth of the electromagnetic field, spatial sensitivity) using dielectric materials and left-handed materials (LHM) are tested with the use of a commercially available software tool, High Frequency Structure Simulation (HFSS). In the first case, those materials are used as matching layers placed around the human head model for the achievement of stepped change of the refraction index on the air-human head model interface. On the second approach, a sphere made of dielectric material is used in conjunction with a LHM matching layer in order to improve the system’s spatial sensitivity. Towards the same direction, a reduced volume ellipsoidal cavity filled with low loss dielectric material is used showing promising results. The experiments were performed inside an anechoic chamber providing maximum accuracy avoiding any external intergerence. In the experimental procedures that were performed, water phantoms of several sizes and temperatures were used in order to confirm that the new ellipsoidal beamformer maintains the focusing properties of the original one. Also, measurements were conducted using dielectric matching layers, placed around the medium of interest, in order to fully understand the effect of those materials in the system’s focusing properties as well as confirm the relative theoretical results. Ιδιότητες εστίασης 616.075 7 Microwave radiometry Ellipsoidal conductive wall cavity Left handed materials Multiband radiometric receiver Low loss dielectric materials Focusing properties
117	Διαγνωστικές και θεραπευτικές τεχνικές με χρήση ηχητικών και μικροκομματικών συχνοτήτων Ασημάκης, Νικόλαος 18 September 2008 (has links) Καθώς η εξέλιξη της βιοϊατρικής επιστήμης και τεχνολογίας είναι συνεχής και ραγδαία, η έρευνα επικεντρώνεται τόσο στη βελτίωση των κλινικών τεχνικών όσο και στην ανάπτυξη νέων με κυριότερο σκοπό την ακριβέστερη και ασφαλέστερη διάγνωση και θεραπεία. Στην παρούσα διπλωματική εργασία, μελετάται η χρήση δύο περιοχών του φάσματος, των μικροκυματικών και των ηχητικών συχνοτήτων για διαγνωστικές λειτουργικές εφαρμογές εγκεφάλου. Παρόλο που η χρήση των υπερήχων έχει αξιοποιηθεί στην κλινική εφαρμογή, οι αναφορές για τη χρήση των ηχητικών κυμάτων στις βιοιατρικές εφαρμογές είναι περιορισμένες στη διεθνή βιβλιογραφία. Στην παρούσα διπλωματική εργασία μελετάται η ανάπτυξη ενός συστήματος για διαγνωστικές εφαρμογές εγκεφάλου στις ηχητικές συχνότητες. Στα δύο πρώτα κεφάλαια περιγράφονται οι βασικές αρχές που διέπουν την επιστήμη του ήχου (ακουστική) αλλά και οι φυσικές αρχές αλληλεπίδρασης των ηχητικών κυμάτων με τους βιολογικούς ιστούς (δημιουργία και εξέλιξη των φυσικών φαινομένων ανάκλασης, διάθλασης, μετάδοσης και απορρόφησης της ηχητικής δέσμης). Πιο συγκεκριμένα μοντελοποιείται και μελετάται θεωρητικά το πρόβλημα της αλληλεπίδρασης των ηχητικών κυμάτων με τον ανθρώπινο εγκέφαλο. Στο τρίτο κεφάλαιο παρατίθεται η θεωρητική ανάλυση και οι βασικές αρχές της προτεινόμενης μεθόδου για μέτρηση της εγκεφαλικής δραστηριότητας στις ηχητικές συχνότητες καθώς και τα βασικά στοιχεία της πρακτικής της υλοποίησης που περιλαμβάνουν ανάλυση του πιεζοηλεκτρικού φαινομένου και των αντίστοιχων μετατροπέων καθώς και το αντίστοιχο σύστημα λήψης ηχητικών σημάτων. Τα μικροκύματα έχουν χρησιμοποιηθεί σε πλήθος διαγνωστικών και θεραπευτικών τεχνικών τόσο σε επίπεδο έρευνας όσο και στην κλινική πράξη. Στην παρούσα εργασία πραγματοποιείται θεωρητική μελέτη δύο πολυσυχνοτικών κυρτών προσαρμόσιμων μικροταινιακών τυπωμένων κεραιών για χρήση τους με συστήματα ευαίσθητων δεκτών μικροκυματικής ραδιομετρίας. Στο κεφάλαιο 4 περιγράφονται η βασική τεχνολογία και οι βασικές αρχές λειτουργίας της παθητικής μεθόδου διάγνωσης με μικροκύματα, της μικροκυματικής ραδιομετρίας. Οι προτεινόμενες κυρτές κεραίες μοντελοποιήθηκαν (κεφάλαιο 5) και μελετήθηκαν με τη βοήθεια του ηλεκτρομαγνητικού προσομοιωτικού λογισμικού πακέτου HFSS που χρησιμοποιεί τη μέθοδο των πεπερασμένων στοιχείων. Παρουσιάζονται αναλυτικά οι ιδιότητες εστίασης των κεραιων αυτών σε δύο διαφορετικά μοντέλα κεφαλιού στος εύρος συχνοτήτων 2 – 3.5 GHz. / As the evolution in the field of biomedical science and technology is continuous, the research focuses mainly on the improvement of existent clinical techniques and the development of new ones, aiming to the most accurate and safe diagnosis and treatment. In the present thesis, the usage of two frequency bands is investigated, the microwave and sound frequencies for diagnostic functional brain applications. Despite the fact that ultrasounds have been utilized in clinical practice, the references regarding the application of sound frequencies in medical diagnosis are restrained in international literature. In the present thesis the development of a system for diagnostic brain applications operating at sound frequencies is studied. In the first two chapters the basic principles of acoustics and the physical principles of the interaction of sound waves with biological tissue (including physical phenomena of reflection, diffraction, transmission and absorption of sound) are described. More specifically, the problem of the interaction of sound waves with the human brain tissues is theoretically modeled and studied. In the third chapter theoretical analysis and basic principles of the suggested method are given together with the basic points of its practical implementation that include analysis of the piezoelectric phenomenon, the respective piezoelectric transducers and sound signal receiver. Microwaves have been used in many diagnostic and therapeutic techniques both at research level and in clinical practice. Herein, a theoretical study of two multi-frequency conformal microstrip patch antennas is performed, in order to use them in conjunction with sensitive microwave radiometry receivers. In chapter 4 the basic technology and the basic operation principles of the passive diagnostic method with microwaves (microwave radiometry) are described. The suggested conformal antennas are modeled (chapter 5) and studied using the electromagnetic simulation tool HFSS that implements the finite element method (FEM). The properties of these antennas and their focusing ability on specific brain areas are presented at 2 – 3.5 GHz in two different head models. Ηχητικές συχνότητες 615.83 Sound frequencies Brain activity measurement Microwave radiometry
118	Experimental Investigation of Size Effects on Surface Phonon Polaritons and Phonon Transport / Etude expérimentale des effets de taille sur les phonon polaritons de surface et le transport de phonon Wu, Yunhui 31 January 2019 (has links) La conduction thermique devient moins efficace à mesure que la taille des struc-tures diminuent en desous du micron, car la diffusion de surface des phononsdevient prédominante et limite plus efficacement les phonons que la diffusionphonon-phonon Umklapp. Des études récentes ont indiqué que les phonon po-laritons de surface (SPhPs), qui sont les ondes électromagnétiques évanescentesgénérées par l’hybridation des phonons optiques et des photons et se propageantà la surface d’une surface diélectrique polaire, pourraient servir de nouveauxvecteurs de chaleur pour améliorer les performances thermiques dans des dis-positifs micro- et nano-métriques. Nous étudions l’état des SPhPs existantdans un film submicronique diélectrique dans une large gamme de fréquences.Le calcul de la conductivité thermique des SPhPs basé sur l’équation de trans-port de Boltzmann (BTE) montre que le flux de chaleur transporté par lesSPhPs est supérieur à celui des phonons. Nous effectuons également une mesurede réflectance thermique dans le domaine temporel (TDTR) de films submi-croniques deSiNet démontrons que la conductivité thermique due aux SPhPsà haute température augmente lorsque l’épaisseur du film dimine. Les résultatsprésentés dans cette thèse ont des applications potentielles dans le domaine dutransfert de chaleur, de la gestion thermique, du rayonnement en champ proche et de la polaritoniques. / Thermal conduction becomes less efficient as structures scale down into submicron sizes since phonon-boundary scattering becomes predominant and impede phonons more efficiently than Umklapp scattering. Recent studies indicated that the surface phonon polaritons (SPhPs), which are the evanescent electromagnetic waves generated by the hybridation of the optical phonons and the photons and propagating at the surface of a polar dielectric material surface, potentially serve as novel heat carriers to enhance the thermal performance in micro- and nanoscale devices. We study the condition of SPhPs existing in a dielectric submicron film with a broad frequency range. The calculaton of SPhPs thermal conductivity based on Boltzmann transport equation (BTE) demonstrates that the heat flux carried by SPhPs exceeds the one carried by phonons. We also conduct a time-domain-thermal-reflectance (TDTR) measurement of $SiN$ submicron films and demonstrate that the thermal conductivity due to the SPhPs at high temperatures increases by decreasing the film thickness. The results presented in this thesis have potential applications in the field of heat transfer, thermal management, near-field radiation and polaritonics. Transfert de chaleur Conductivité Thermique Ondes de surface Phonon polaritons de surface Rayonnement de champ proche Radiométrie photothermique Heat transfer Thermal Conductivity Surface waves Surface Phonon Polaritons Near-filed radiation Time domain thermal reflectance Photo thermal radiometry
119	Komplexní diagnostika konstrukce bytového domu před rekonstrukcí / The complex diagnostics of apartment building construction before reconstruction Kocich, Tomáš January 2012 (has links) This thesis deals with the diagnosis of a residential building from the late nineteen twenties for the needs of reconstruction. The methods generally used in the diagnosis of structures are briefly described in the theoretical part. More deeply this section describes the methods that were used during this particular research. The practical part deals with the diagnosis of the object itself. The first section describes the layout of the villa, its design solution, its faults and defects detected during the inspection. The next section deals with evaluating the current state of construction materials. Static reports of several structural parts were calculated in the last section.
120	Surface Characterization using Radiometric and Fourier Optical Methods Hansson, Peter January 2003 (has links) This thesis treats static and dynamic surface characterization using radiometric and Fourier optical methods. A Fourier optical method has been developed for real time image processing in paper production and printing applications. It has been shown that the method can be used to measure crepe frequency, an important parameter in tissue paper production, as well as to monitor the wire mark pattern at paper web velocities of up to 20 m/s. The wire mark pattern has been used to measure dimensional variations across a paper web. These are important for the mechanical properties of paper. Imaging of the moving surfaces onto a spatial light modulator, necessary for Fourier optical analysis of opaque objects, constitutes a motion blur problem. This problem has been solved by means of optical motion compensation using a rotating mirror. A rotating mirror system has also been developed for the inspection of small particles fixed to a rotating sample disc. The optical motion compensation configurations have made exposure times of more than two orders of magnitude longer than the exposure time without compensation possible. A light scattering model for opaque objects, for example coated paper, has also been developed and verified, with a coefficient of determination between theory and measurement ranging from r2=0.84 to r2=0.98, on various paper samples. The light scattering model has been used in the development of an instrument based on the photometric stereo principle. In this instrument the reflectance (or color) and topography of opaque samples are determined from two or more images of the sample illuminated from different directions. The method has been successfully used for studies of the relation between topography and print results in gravure and flexographic printing. Comparisons of surface height profiles measured with the photometric stereo method and profiles obtained with mechanical and optical scanning stylus instruments have shown coefficients of determination of up to r2=0.97. The main advantages of the method are the high speed, the scalability and the ability to obtain reflectance and surface height maps of a surface simultaneously. Engineering physics Radiometry Fourier Optics Surface Characterization Topography Reflectance Color Paper Printing Print quality Gloss Light scattering Shape from shading Photometric stereo Optical motion compensation Filtering Wiener filter Lamberts law Image analysis Image processing Machine vision Teknisk fysik Engineering physics Teknisk fysik

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