Global ETD Search

51	Photoakustische Online-Spektroskopie von Schichten im Nanometer-Bereich / Online photo acoustic spectroscopy of thin layers Prinzhorn, Heinrich 28 March 2013 (has links) Die Messung der Schichtdicke und die Charakterisierung von Oberflächen ist in modernen Produktionsprozessen von elementarem Interesse. Fehler wirken sich nicht nur unmittelbar sondern auch in der Weiterverarbeitung zum Endprodukt aus. In der Praxis werden zunehmend immer dünnere Schichten und edlere Materialien verarbeitet, was neue Verfahren notwendig macht. In dieser Arbeit sind mechanischer Aufbau, optische Komponenten, elektronische Bauteile und Eigenschaften eines Messsystems beschrieben, welches erstmals in der Lage ist, den Mengenauftrag trockener Konversions-Schutzschichten auf Aluminiumsubstraten hochempfindlich, berührungslos und nicht-destruktiv zu bestimmen. Das Messsystem ist bereits seit einigen Monaten im industriellen Einsatz. Die Messergebnisse wurden im Rahmen dieser Arbeit in einen Kontext vielfältiger Analysemethoden gesetzt und es konnte gezeigt werden, dass die anorganischen Komponenten der Konversionsschicht maßgeblichen Anteil an der Signalbildung haben. Entscheidend für die Qualität der Beschichtung von Substraten mit Vorbehandlung ist die Bestimmung des Zirkoniumgehalts. Die Robustheit der Methode gegenüber Störungen durch andere Parameter (Abstand, Energie, Trocknungs- Temperatur und anderen) wurde erwiesen. Im Vergleich mit anderen kommerziell verfügbaren Methoden zeigt das entwickelte Messsystem keine größeren Schwächen. Es kann prinzipiell nicht nur für Konversionsschichten, sondern außerdem für viele andere Schichtsysteme genutzt werden. Das in dieser vorgestellte Messsystem und seine grundlegende Funktionsweise wurden am 18. Februar 2014 zum Patent in den USA eingereicht. 540 online Zirkon Titan chrom-frei Konversionsschicht Vorbehandlung online photoacoustic microphone aluminium pretreatment titanium zirconium Chemie (PPN62138352X)
52	Caracterizacao espectroscopica e termica de esmalte e dentina bovinos utilizando o efeito fotoacustico STOLF, SANDRO F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:48:08Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:07:31Z (GMT). No. of bitstreams: 1 09302.pdf: 3407854 bytes, checksum: 9ad0354f272b3e3c59f9432ff90a5c98 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP TEETH ENAMELS DENTIN CATTLE THERMAL DIFFUSIVITY OPTICAL PROPERTIES PHOTOACOUSTIC EFFECTS PHOTOACOUSTIC SPECTROSCOPY NEAR INFRARED RADIATION BIOLOGICAL MATERIALS LASERS neodymium lasers dentistry erbium holmium
53	Caracterizacao espectroscopica e termica de esmalte e dentina bovinos utilizando o efeito fotoacustico STOLF, SANDRO F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:48:08Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:07:31Z (GMT). No. of bitstreams: 1 09302.pdf: 3407854 bytes, checksum: 9ad0354f272b3e3c59f9432ff90a5c98 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP teeth enamels dentin cattle thermal diffusivity optical properties photoacoustic effects photoacoustic spectroscopy near infrared radiation biological materials lasers neodymium lasers dentistry erbium holmium
54	Thermoacoustic Imaging and Spectroscopy for Enhanced Cancer Diagnostics Bauer, Daniel Ryan January 2012 (has links) Early detection of cancer is paramount for improved patient survival. This dissertation presents work developing imaging techniques to improve cancer diagnostics and detection utilizing light and microwave induced thermoacoustic imaging. In the second chapter, the well-established pre-clinical mouse window chamber model is interfaced with simultaneously acquired high-resolution pulse echo (PE) ultrasound and photoacoustic (PA) imaging. Co-registered PE and PA imaging, coupled with developed image segmentation algorithms, are used to quantitatively track and monitor the size, shape, heterogeneity, and neovasculature of the tumor microenvironment during a month long study. Average volumetric growth was 5.35 mm³/day, which correlated well with two dimensional results from fluorescent imaging (R = 0.97, p < 0.01). Spectroscopic PA imaging is also employed to probe the assumed oxygenation status of the tumor vasculature. The window chamber model combined with high-resolution PE and PA imaging could form a powerful testbed for characterizing cancers and evaluating new contrast and therapeutic agents. The third chapter utilizes a clinical ultrasound array to facilitate fast volumetric spectroscopic PA imaging to detect and discriminate endogenous absorbers (i.e. oxy/deoxygenated hemoglobin) as well as exogenous PA contrast agents (i.e. gold nanorods, fluorophores). In vivo spatiotemporal tracking of administered gold nanorods is presented, with the contrast agent augmenting the PA signal 18 dB. Furthermore, through the use of spectral unmixing algorithms, the relative concentrations of multiple endogenous and exogenous co-localized absorbers were reconstructed in tumor bearing mice. The concentration of Alexaflour647 was calculated to increase nearly 20 dB in the center of a prostate tumor after a tail-vein injection of the contrast agent. Additionally, after direct subcutaneous injections of two different gold nanorods into a breast tumor, the concentration of each nanoparticle was discriminated in vivo with a signal-to-noise ratio of greater than 25 dB. This technique has great potential for improved early cancer detection and individualized cancer treatment through advanced pharmacokinetic monitoring of therapeutic agents. Finally, the fourth chapter presents significant improvements made to enhance breast cancer detection with thermoacoustic (TA) imaging. In a breast cancer simulating phantom, the initial demonstration of TA spectroscopy (TAS) is used to detect and discriminate relative water / fat composition based solely on the sample's intrinsic spectral absorption. The slope of the TA signal was highly correlated with that of the absorption coefficient (R² = 0.98, p < 0.01), indicating TAS can distinguish materials based on their dielectric properties. Furthermore, the use of carbon nanotubes as a potential TA contrast agent is explored. These nanoparticles significantly enhance the magnitude of the TA signal (8 dB larger than water), and also demonstrate unique absorption spectra. Finally, short microwave pulses (Δt ≥ 10 ns) are achieved through novel microwave hardware, and used to generate high-frequency TA signals. In conclusion, this section presents advancements made to the sensitivity, contrast, and resolution of TA imaging. Overall, this dissertation presents enhancements made to the diagnostic capabilities of PA and TA imaging for improved detection and characterization of cancer. microwaves optical imaging photoacoustic ultrasound Optical Sciences cancer detection image processing
55	Dispersion of the Nonlinear Refractive Index of CS₂ in the Spectral Range of 9-11 μm Mohebi, Mehrdad 05 1900 (has links) The nonlinear refractive index (n2) of room temperature liquid CS2 in the wavelength range of 9 to 11 micrometers is measured. A line tunable hybrid C02 TEA laser and amplifier system is used for the experiments. In these measurements the well known photoacoustic method is utilized to observe the onset of whole beam self-focusing. The photoacoustic signal in a CS2 cell, much longer than the confocal parameter, is monitored. The departure of the acoustic signal from linear growth marks the critical power for the onset of nonlinearity. It is experimentally verified that the phenomenon is power dependent as expected from self-focusing theory. The value of n2 is then calculated from the theoretical model of self focusing. Measurements of the on-axis irradiance transmitted through the nonlinear material as well as the measurements of beam distortion are used to verify the validity of the photoacoustic method. In all the measurements the on-axis intensity was smaller than the calculated threshold intensity for stimulated Brillouin scattering. The back reflection was monitored to make sure that stimulated Brillouin scattering was not playing a role in the phenomenon. photoacoustic method nonlinear refractive index CS2 Nonlinear optics. Carbon disulfide -- Optical properties.
56	Monitoramento de temperatura tecidual por meio de imagens fotoacústicas durante tratamento de hipetermia / Tecidual temperature monitoring using photoacoustic images during hyperthermia treatments. Uliana, João Henrique 29 September 2016 (has links) Sabe-se que o aumento na temperatura do tecido tumoral pode aumentar a eficiência de técnicas convencionais de combate ao câncer (radioterapia e quimioterapia). Além disso, a variação de temperatura em tumores pode ser uma forma de tratamento alternativo à cirurgia, feito por meio do fornecimento de calor direcionado às células cancerosas e preservando o tecido sadio. Para maior eficácia e segurança no emprego de técnicas que utilizam fornecimento de calor ao tecido biológico, é necessário o monitoramento da temperatura tecidual para garantir que a morte celular por ablação térmica seja limitada ao tecido alvo, minimizando os danos aos tecidos adjacentes. A imagem fotoacústica é uma técnica baseada no efeito fotoacústico, o qual consiste na absorção de radiação eletromagnética pelo tecido e, devido à expansão termoelástica, na geração de ondas acústicas. A amplitude da onda de pressão gerada pelo efeito fotoacústico possui dependência com a temperatura do meio pelo parâmetro de Grueneisen, que depende das propriedades mecânicas do material. Portanto, mudanças na amplitude do sinal fotoacústico carregam informações a respeito da variação na temperatura do material. Neste trabalho, a dependência da amplitude do sinal fotoacústico com a temperatura foi estudada em um material simulador de tecido biológico (phantom) em condições similares a de tratamentos por hipertermia Nesse caso, imagens fotoacústicas foram adquiridas para cada grau de temperatura em uma faixa de 36 até 41 ºC durante o procedimento de aquecimento por banho térmico. Mudanças na amplitude e fase do sinal fotoacústico foram avaliadas através da aplicação de algoritmos de speckle tracking. Para estimar a variação na amplitude do sinal também foram utilizados e avaliados diferentes métodos de comparação. Os resultados são apresentados por imagens fotoacústicas termais produzidas pela aplicação de um fator de calibração aos mapas de variação relativa da amplitude do sinal em função da temperatura do meio. Finalmente, avaliamos um experimento de hipertemia por ultrassom focalizado de alta intensidade (High Intensity Therapeutic Ultrasound - HITU) em uma amostra de músculo suíno. Nesse caso foram geradas imagens termais fotoacústicas e imagens termais produzidas pela mudança de fase do sinal pulso-eco de ultrassom. Os resultados sugerem uma maneira não invasiva de calcular a distribuição da variação de temperatura do meio que pode ser aplicada para monitoramento durante tratamentos que utilizam o fornecimento de calor ao tecido biológico. / Several studies have shown that elevating the temperature of tumoral tissue improves standard cancer treatments success rate (radiotherapy and chemotherapy). This procedure can also be a therapy to cancer by delivering heat and killing cancer cells while healthy tissues are preserved. For improved efficiency and security in heat applications, it is important to monitor tissue temperature during treatments. Photoacoustic (PA) pressure wave amplitude has a temperature dependence given by the sample mechanical properties (Gruenesein parameter). These changes in photoacoustic signal amplitude carry information about temperature variation in tissue. Therefore, PA has been proposed as an imaging technique to monitor temperature during hyperthermia. In this study, PA images were acquired for temperatures ranging from 36ºC to 41ºC using a tissue-mimicking phantom immersed in a temperature controlled thermal bath. Relative amplitude variation was calculated using speckle tracking algorithms using four different methods to estimate these variations in PA signal amplitude. The results are presented as PA-based thermal images, generated using a calibration factor to the percentage variations in the amplitude maps. Finally, PA-based and ultrasound-based thermal images were acquired during heating by high intensity focused ultrasound (High Intensity Therapeutic Ultrasound - HITU) in a porcine muscle. The results suggest a non-invasive way to monitor temperature during hyperthermia procedures. Fotoacústica high intensity focused ultrasound Hipertermia hyperthermia Photoacoustic Termometria ultrasound Ultrassom Ultrassom focalizado de alta intensidade
57	Desenvolvimento de nanoflores de ouro fotoativas para terapia e diagnóstico de câncer / Development of photoactive gold nanoflowers for therapy and diagnostic of cancer Santos, Olavo Amorim 20 October 2017 (has links) Nanopartículas de ouro têm mostrado enorme potencial de aplicação em modalidades diagnósticas e terapêuticas fotoativadas. Em especial, nanoestruturas de ouro anisotrópicas ramificadas apresentam excelente desempenho atuando tanto como contrastes de imagens fotoacústicas, quanto como agentes ativos para terapias fototérmicas de câncer. Apesar dos avanços nas suas rotas de síntese, o desenvolvimento dessas nanoestruturas de forma simples e reprodutível ainda é desafiador. O presente trabalho visou o desenvolvimento de nanopartículas de ouro anisotrópicas ramificadas, ou nanoflores, que sejam fotoativas no infravermelho-próximo para a terapia e diagnóstico de câncer. Em particular, buscou-se o desenvolvimento de uma síntese simples para sua obtenção, assim como a verificação de sua atuação como agente de contraste fotoacústico e como agente ativo para hipertermia de tumores. Para tanto, desenvolveu-se uma síntese in situ que permitiu a obtenção de nanoflores monodispersas com tamanho e propriedades ópticas controláveis. Através da variação de aspectos da síntese, como a temperatura e a concentração de ouro, foi possível sintonizar a atividade óptica das partículas entre 590 e 960 nm. Sua formação foi confirmada por microscopia eletrônica de varredura, espalhamento de luz dinâmico e espectroscopia UV-visível. As partículas apresentaram boa estabilidade de suas características físico-químicas por dois meses e meio. Ainda, as nanoflores se mostraram estáveis, também, quando suspensas em meio de cultura, sob irradiação de lasers, e quando mantidas a temperatura corpórea por longos intervalos. Sua resposta fotoacústica foi caracterizada, apresentando sinais significativos e permitindo a obtenção de imagens claras de sua localização, mesmo em baixas concentrações. Testes realizados em cultura de células mostraram que as nanoflores foram eficazes na hipertermia de uma linhagem de hepatocarcinoma de rato (HTC), ao mesmo tempo que não apresentaram sinais de toxicidade a uma linhagem de fibroblastos de camundongos (FC3H). Esses resultados revelam uma possibilidade simples de fabricação de nanoestruturas de ouro anisotrópicas ramificadas, que podem servir como uma plataforma promissora para o diagnóstico e terapia do câncer. / Gold nanoparticles have shown enormous potential of application in photodiagnostic and in phototherapeutic procedures. Notably, branched anisotropic gold nanostructures present distinguished performance acting as contrast agents of photoacoustic images and as active agents for photothermal therapies for cancer. Despite advances in their synthesis routes, the growth of these nanostructures in a simple and reproducible way is still challenging. The present study was aimed at developing branched anisotropic gold nanoparticles, coined nanoflowers, that are photoactive in the near-infrared for therapy and diagnosis of cancer. In particular, we sought to develop a simple synthesis route, as well as to verify its application for both, as photoacoustic contrast agents and as active agents for tumor hyperthermia. An in situ synthesis was developed which allowed the development of monodisperse nanoflowers with controllable size and optical properties. Through variations of certain aspects of this procedure, such as temperature and gold ions concentration, it was possible to tune the optical activity of the particles between 590 and 960 nm. The nanostructure morphology was confirmed by scanning electron microscopy, dynamic light scattering and UV-visible spectroscopy. The particles exhibited consistent physicochemical characteristics and good stability for two and a half months. Furthermore, the nanoflowers were also stable when suspended in cell culture medium, under laser irradiation and when maintained at body temperature for long intervals. Its photoacoustic response was characterized, presenting significant responses and generating clear images of its location, even at low concentrations. In vitro tests revealed that these nanoflowers were effective therapeutic agents for photothermal therapy of a rat hepatocarcinoma (HTC) lineage, while showing no signs of toxicity to mouse fibroblast (FC3H) cell line. These results reveal a simple procedure of synthesizing branched anisotropic gold nanostructures, which can serve as a promising platform for cancer diagnosis and therapy. Cancer Câncer Gold nanoflowers Hipertermia Hyperthermia Imagem Fotoacústica Nanoflores de ouro Nanomedicina Nanomedicine Nanotechnology Nanotecnologia Photoacoustic imaging
58	Metodologia não intrusiva baseada na técnica fotoacústica para o estudo de membranas vítreas porosas / Non-instrusive methodology based on the photoacoustic technique for studying porous vitreous membranes Yasuda, Márcio Tsuyoshi 25 September 2003 (has links) A espectroscopia fotoacústica (PA) vem sendo largamente utilizada em diversos ramos de pesquisa, principalmente nas investigações de materiais quanto às suas propriedades ópticas e térmicas, demonstrando a sua vasta versatilidade. No presente trabalho, desenvolveu-se uma câmara fotoacústica de uso geral e uma metodologia baseada na técnica fotoacústica, técnica não intrusiva e não destrutiva, para a determinação da porosidade aberta de membranas vítreas. A porosidade aberta de membranas vítreas está relacionada diretamente à permeabilidade e à eficiência dessas membranas em processos de filtração. Essas membranas foram processadas utilizando-se a técnica de preenchimento e garrafas de vidro, encontradas comercialmente, como matéria-prima. Através da utilização de NaCl como o material inerte, foram processadas membranas com diferentes percentagens de poros. A metodologia fotoacústica desenvolvida neste trabalho teve como base modelos teóricos fotoacústicos tradicionais de análise. Esta metodologia foi capaz de determinar a porosidade aberta das membranas e de distinguí-las quanto as suas superfícies. Os resultados obtidos através da técnica fotoacústica foram comparados com os resultados obtidos por porosimetria de mercúrio (técnica intrusiva e destrutiva) e por ensaios de permeabilidade (técnica intrusiva e não destrutiva) com as mesmas membranas. Estas duas técnicas de análise são as usualmente utilizadas em estudos de estruturas porosas. A comparação entre os dados experimentais comprovou a validade dos resultados obtidos com a nova metodologia. Além desta metodologia fornecer a porosidade aberta com relativa facilidade, ela demonstrou ser rápida, não-destrutiva e de baixo custo para cada ensaio nas análises / The photoacoustic (PA) spectroscopy has been used in several research lines, mainly in the investigation of thermal and optical properties related to different materials, showing in this way high versatility. In this work is described the development of a general-purpose photoacoustic cell, and of a methodology based on photoacoustic technique for the determination of the opened porosity of vitreous membranes. The technique is non-intrusive and non-destructive in relation to the membranes. The opened porosity of vitreous membranes is directly related to the permeability and also directly related to the efficiency of these membranes in the filtration processes. Membranes with different percentage of pores were processed by means of filler principle. For this purpose were used glass bottles found commercially as raw material and NaCl as inert material. The photoacoustic methodology developed in this work was based on classical theoretical models found in the literature. This methodology was capable to determine the open porosity of the membranes and to distinguish membranes with different surfaces. The results obtained with the photoacoustic technique were compared with that obtained by means of mercury porosimetry (intrusive and destructive technique) and permeability measurements (intrusive and non destructive technique) with the same membranes. These two techniques are usually used in studies of porous structures. The comparison between the experimental data showed the validity of the results obtained with this new methodology. Moreover, it supplies the opened porosity with relative easiness, in a faster and non-destructive way, and with low cost in the analyses Fotoacústica Membranas vítreas Methodology Metodologia Não intrusiva Non-intrusive Open porosity Photoacoustic Porosidade aberta Vitreous membranes
59	Construção e calibração energética por efeito fotoacústico de um laser de nitrogênio para uso em ensino e pesquisa. / Construction and energy calibration by photoacoustic effect of a nitrogen laser for use in teaching and research. Guimaraes, Maria Ines Calil Cury 30 January 1987 (has links) Esta dissertação trata da teoria e construção de um laser de Nitrogênio molecular pulsado com alta potência de pico e que trabalha na região ultravioleta (337,1 nm), para uso em ensino e pesquisa. Juntamente mostra-se o desenvolvimento e construção de uma célula fotoacústica, cuja função é ser usada como medidor de energia dos pulsos do laser. Este aparelho preciso e sensível serve para medir não somente a energia dos pulsos deste laser, como também de outras fontes de radiação pulsada. Os resultados que caracterizam em detalhes o laser e a célula fotoacústica estão apresentados neste trabalho, e sugestões para o uso destes em laboratório de ensino estão incluídos no Apêndice. / This dissertation treats the theory and construction of a pulsed molecular Nitrogen laser with high peak power which functions in the ultra-violet region (337,1 nm) for use in teaching and research. In addition we show the design and construction of a photo-acoustic cell whose function is to measure the energy of the laser pulses. This sensitive and precise apparatus serves as well for measuring the energy of pulsed radiation sources other than the Nitrogen laser. Results which characterize in detail the laser and the photo-acoustic are presented and suggestions for a teaching laboratory included in an appendix. Calibração de energia Energy calibration Fotoacústica Laser de nitrogênio Nitrogen laser Photoacoustic Ultraviolet Ultravioleta
60	DEVICE AND IMAGE ANALYSIS ADVANCEMENTS TOWARDS PHOTOACOUSTIC AND ULTRASOUND TOMOGRAPHY-GUIDED PROSTATE BIOPSY Brittani Lynn Bungart (6560621) 10 June 2019 (has links) To confirm the presence of prostate cancer which is the most incident visceral cancer in men, prostate biopsies are acquired using the magnetic resonance imaging fusion-guided prostate biopsy protocol. For this approach annotated magnetic resonance imaging is overlaid onto real-time ultrasound imaging to guide sampling of suspicious regions marked by uroradiologists. Additional biopsy samples are acquired via the previous clinical gold standard, i.e. the templated 12-core transrectal ultrasound-guided prostate biopsy protocol. While this approach improves the sensitivity of the prostate biopsy, a real-time, multiparametric imaging method of identifying biopsy targets could help overcome some of the inherent pitfalls of the magnetic resonance imaging fusion-guided prostate biopsy. Since ultrasound is used during the prostate biopsy, photoacoustic tomography, e.g. a hybrid imaging modality in which clinical ultrasound probes can be used to detect centimeters deep chemical alterations, has the potential to provide real-time targeting during biopsy. The translation of photoacoustic tomography to the clinic for prostate biopsy has been prevented by engineering challenges, which include identification of a biomarker for detecting suspicious regions of tissue and light delivery to the prostate for photoacoustic signal generation. Here, we present a vascular texture analysis method that identified 100% of primary and 67% of secondary tumors in the testing data set of ex vivo human prostate specimens. This method can be applied to future in vivo photoacoustic and ultrasound tomography of human prostates after further optimization of light delivery for photoacoustic tomography. To progress towards achieving this aim, we developed a transurethral light delivery device with angular light coupling method. By controlling the launch angle of the light into the fiber, the conversion of forward to side propagating energy can be improved from 27% to 98%, and the longitudinal emission profile can be controlled in order to illuminate the whole prostate simultaneously.<br> prostate cancer diagnostics photoacoustic tomography optoacoustic tomography Imaging

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