Silicon nanocavity light emitters at 1.3-1.5 µm wavelength

Shakoor, Abdul

January 2013

Silicon Photonics has been a major success story in the last decade, with many photonic devices having been successfully demonstrated. The only missing component is the light source, however, as making an efficient light source in silicon is challenging due to the material's indirect bandgap. The development of a silicon light source would enable us to make an all-silicon chip, which would find many practical applications. The most notable among these applications are on-chip communications and sensing applications. In this PhD project, I have worked on enhancing silicon light emission by combining material processing and device engineering methods. Regarding materials processing, the emission level was increased by taking three routes. In all the three cases the emission was further enhanced by coupling it with a photonic crystal (PhC) cavity via Purcell effect. The three different approaches taken in this PhD project are listed below. 1. The first approach involves incorporation of optically active defects into the silicon lattice by hydrogen plasma treatment or ion implantation. This process results in broad luminescence bands centered at 1300 and 1500 nm. By coupling these emission bands with the photonic crystal cavity, I was able to demonstrate a narrowband silicon light emitting diode at room temperature. This silicon nano light emitting diode has a tunable emission line in the 1300-1600 nm range. 2. In the second approach, a narrow emission line at 1.28µm was created by carbon ion implantation, termed “G-line” emission. The possibility of enhancing the emission intensity of this line via the Purcell effect was investigated, but only with limited success. Different proposals for future work are presented in this regard. 3. The third approach is deposition of a thin film of an erbium disilicate on top of a PhC cavity. The erbium emission is enhanced by the PhC cavity. Using this method, an optically pumped light source emitting at 1.54 µm and operating at room temperature is demonstrated. A practical application of silicon light source developed in this project in gas sensing is also demonstrated. As a first step, I show refractive index sensing, which is a simple application for our source and demonstrates its capabilities, especially relating to the lack of fiber coupling schemes. I also discuss several proposals for extending applications into on-chip biological sensing.

621.38152

Holocene evolution of a hypersaline lake: Lagkor Tso, western Tibet

Lee, Ting, Jennifer, 李婷

January 2008

published_or_final_version / abstract / Earth Sciences / Master / Master of Philosophy

Geology, Stratigraphic - Holocene.

X-ray line transfer in rapidly expanding laser-produced plasmas

Patel, Pravesh K.

January 1998

No description available.

535

Deep multi-frequency radio observations of the SHADES fields and the nature of the faint radio populaton

Ibar, Eduardo

January 2009

The two SCUBA HAlf-Degree Extragalactic Survey (SHADES) fields are amongst the richest places in the sky in terms of multi-wavelength coverage. They comprise an eastern section of the Lockman Hole (LH) and the central portion of the Subaru- XMM/Newton Deep Field (SXDF). In this thesis, I have obtained extremely deep, multi-frequency radio imaging of the SHADES fields using the GiantMetre-wave Radio Telescope (GMRT) and the Very Large Array (VLA), at 610MHz and 1.4GHz, respectively. These data are used to analyse the nature of the sub-milliJansky (sub-mJy) radio population, which has been hotly debated in the last few years: are they powered by star-forming or nuclear activity? To tackle the problem, I employ different approaches making use of the large variety of multi-wavelength data in the SHADES fields. I begin by analysing the spectral index, α610MHz 1.4GHz , of radio sources detected in the LH, to explore the dominant emission mechanism. Based on a robust 10 σ detection criterion, I find a constantmedian spectral index of α610MHz 1.4GHz ≈ −0.6 to −0.7 for sources between S1.4GHz ≈ 200 μJy and 10mJy. This result suggests that the galaxy population in the sub-mJy regime is powered by optically-thin synchrotron emission – starforming galaxies or lobe-dominated active galactic nuclei (AGN). Making use of X-ray observations in the LH, I show that the fraction of radio sources detected in the hard X-ray band (between 2 and 10 keV) decreases from 50 to 15 per cent between S1.4GHz ≈ 1mJy and . 100 μJy, which strongly suggests a transition from AGN to star-forming galaxies. Based on the deep, multi-wavelength coverage of the SXDF, I explore the behaviour of the far-infrared (FIR)/radio correlation as a function of redshift. I combine the q24 factor – the logarithmic flux density ratio between Spitzer 24-μm and VLA 1.4- GHz flux densities – with available photometric redshifts and find strong evidence that the correlation holds out to z ≈ 3.5. Based on M82-like k-corrections and using a high-significance (S1.4GHz > 300 μJy) radio sub-sample, I find a mean and scatter of q24 = 0.71 ± 0.47. Monte-Carlo simulations based on these findings show that fewer sources deviate from the correlation at fainter flux densities (i.e. fewer radioloud AGN). I predict that the radio-loud fraction drops from 50 per cent at ∼ 1mJy to zero at . 100 μJy. The validity of the FIR/radio correlation out to very high redshifts adds credibility to identifications of sub-millimetre (submm) galaxies (SMGs) made at radio wavelengths. Based on a sample of 45 radio-identified SMGs in the LH, I find a median radio spectral index of α610MHz 1.4GHz = −0.72 ± 0.07, which suggests that optically-thin synchrotron is the dominant radio emission mechanism. Finally, as anAppendix I include a theoretical treatment that constrains the average geometry of the dusty, torus-like structures believed to obscure a large fraction of the AGN population. I use the distribution of column densities (NH) obtained from deep ∼ 1Msec X-ray observations in the Chandra Deep Field South. I find that to reproduce the wide observed range of NH, the best torus model is given by a classical “donut”- shaped distribution with an exponential angular dependency of the density profile.

520

Comparison of dating methods for paleoglacial reconstruction in Central Asia

Gribenski, Natacha

January 2016

Reconstruction of former Central Asian glaciers extents can provide valuable information about past atmospheric circulation variations. These extents, often marked by terminal moraines, need to be chronologically constrained. Cosmogenic nuclide exposure (CNE) dating is widely used to directly date moraines. In addition, there is increasing interest on using optically stimulated luminescence (OSL) techniques for dating glacial landforms. This thesis focuses on the methodological aspects of directly dating glacial landforms to perform paleoglacial reconstructions in Central Asia, with an emphasis on OSL dating. For OSL dating of sediments from glacial settings, it is important to measure the luminescence signal at the single grain scale, because the sediments are likely affected by partial bleaching due to short light exposure during glacial or glaciofluvial transport. The use of an Electron Multiplying Charges Coupled Device (EMCCD)-based imaging system for single grain OSL measurements would offer larger flexibility in light stimulation and sediment type, compared to the current Single Grain Risø reader. An automated image processing procedure has been developed to compensate for sample carrier displacement over repeated measurements and for attributing pixels to each grain for signal integration when using this imaging system. However, significant cross talk contamination, demonstrated by laboratory and simulation experiments, prohibits accurate single grain luminescence measurements. Preliminary experiments using a basic image processing algorithm show good potential for software correction solutions. Paleoglacial reconstructions conducted in the Altai Mountains, Central Asia, using both CNE and OSL dating demonstrate that luminescence measurements of glaciofluvial sediments performed at the multi-grain scale result in large age overestimates, and that single grain measurements allow for more accurate dating of glacial landforms. However, uncertainties remain that are related to the model used for extracting equivalent doses for well-bleached grains and to fading corrections when using feldspar minerals. The timing of glaciation can be inferred from scattered CNE moraine boulder ages if most of the ages are concentrated within a few thousand years, with only few ages clearly older or younger. Overall, combining CNE and OSL techniques for dating a glacial landform is a powerful approach for producing robust glacial chronologies, despite uncertainties inherent to each technique. Paleoglacial reconstructions from the Altai Mountains indicate Marine Isotope Stage (MIS) 2 and MIS 4/late MIS 5 local Last Glacial Maximums. In Central Asia, in addition to a regional MIS 2 glaciation, previous studies indicate a period of major glacial advances during MIS 3 that is out of phase with global ice volume records. However, most MIS 3 glacial chronologies from Central Asia are based on too few or too heavily scattered CNE data sets, or on OSL or Electron Spin Resonance (ESR) ages for which partial bleaching has not been properly investigated. Hence, at this stage, chronological evidence is insufficient to demonstrate a regional MIS 3 glaciation in Central Asia. Surge-related glacial features identified in the Russian Altai also highlight the importance of conducting detailed geomorphology and sedimentology studies to understand former ice dynamics, which is essential for inferring appropriate paleoclimate information from paleoglacial reconstructions. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Paleoglaciation

Optically stimulated luminescence dating

Cosmogenic nuclide exposure dating

EMCCD camera

Caracterização dosimétrica do BeO em feixes de radiodiagnóstico convencional, mamografia e tomografia computadorizada, pelas técnicas de termoluminescência e luminescência opticamente estimulada / Dosimetric characterization of BeO in standard beams of conventional diagnostic radiology, mammography and computed tomography, by the thermoluminescence and optically stimulated luminescence techniques

Algarve, Fábio Junqueira

18 August 2017

A radiação ionizante é amplamente utilizada em diversas áreas na indústria e na medicina. No campo da medicina, a radiação ionizante é utilizada tanto para fins terapêuticos como para fins diagnósticos, abrangendo assim um grande intervalo de doses de diferentes tipos de radiações. Para certificar que a finalidade da prática esteja sendo alcançada, são necessários estudos detalhados de detectores e dispositivos que atendam aos diferentes tipos de radiações. Neste trabalho foi realizado um estudo das características dosimétricas de amostras de BeO em feixes padronizados de radiodiagnóstico convencional, mamografia e tomografia computadorizada, utilizando as técnicas de termoluminescência (TL) e luminescência opticamente estimulada (OSL) e propondo um sistema adequado para sua utilização em dosimetria de feixes. Os principais resultados obtidos foram: alta sensibilidade à luz branca durante a irradiação, boa reprodutibilidade das respostas TL e OSL (coeficientes de variação inferiores a 5%), parâmetros cinéticos correspondentes aos valores obtidos em todos os métodos testados, sem fading dentro do período estudado para ambas as técnicas. As características dosimétricas obtidas neste trabalho mostram a possibilidade de aplicação das amostras de BeO em dosimetria da radiação X, considerando os intervalos de dose empregados, pelas técnicas de TL e OSL. Assim, as amostras de BeO apresentaram sua utilização potencial para dosimetria de feixes de radiodiagnóstico convencional, mamografia e tomografia computadorizada. / The ionizing radiation is widely used in several areas in industry and medicine. In the field of medicine, the ionizing radiation is used both for therapeutic purposes and for diagnostic purposes, thus covering a wide range of doses of different types of radiation. To certify that the goal of practice is being achieved detailed studies of detectors and devices that respond to different types of radiation are required. In this work, a study of dosimetric characteristics of BeO samples was performed in standard beams of conventional diagnostic radiology, mammography and computed tomography, using the techniques of thermoluminescence (TL) and optically stimulated luminescence (OSL), and proposing a suitable system for its use in beam dosimetry. The main results obtained were: high sensitivity to white light during the irradiation, good reproducibility of responses TL and OSL (coefficients of variation of less than 5%), and kinetics parameters corresponding to the values obtained in all of the tested methods, without fading within the observed period for both techniques. The dosimetric characteristics obtained in this work show the possibility of application of BeO samples for dosimetry of X radiation, considering the tested dose interval, by the TL and OSL techniques. Thus, the BeO samples presented potential use for dosimetry of conventional diagnostic radiology, mammography and computed tomography beams.

BeO

BeO

dosimetria

dosimetry

luminescência opticamente estimulada

Monte Carlo

Monte Carlo

optically stimulated luminescence

termoluminescência

thermoluminescence

Metodologia dosimétrica para extremidades em indivíduos ocupacionalmente expostos à radiação  beta por meio da técnica de luminescência opticamente estimulada / Dosimetric methodology for extremities of individuals occupationally exposed to beta radiation using the optically stimulated luminescence technique

Pinto, Teresa Cristina Nathan Outeiro

27 July 2010

Uma metodologia dosimétrica foi estabelecida, para determinação das doses recebidas em extremidades por indivíduos ocupacionalmente expostos à radiação beta, com detectores de Al2O3:C e sistema leitor microStar, da Landauer, associados à técnica de luminescência opticamente estimulada (OSL). As principais etapas do trabalho foram: caracterização do material dosimétrico Al2O3:C utilizando a técnica de OSL; estabelecimento de um método para avaliação de dose em extremidades; determinação de taxas de dose de fontes de radiação beta; aplicação do método estabelecido em um teste prático com indivíduos ocupacionalmente expostos à radiação beta durante uma simulação de procedimento de calibração de aplicadores clínicos; validação do método desenvolvido por meio de comparação das doses obtidas no teste prático pela técnica de OSL com doses obtidas pela técnica de TL. Os resultados mostram que os detectores de Al2O3:C e a técnica de OSL podem ser utilizados em monitoração individual de extremidades e radiação beta. / A dosimetric methodology was established for the determination of extremity doses of individuals occupationally exposed to beta radiation, using Al2O3:C detectors and the optically stimulated luminescence (OSL) reader system microStar, Landauer. The main parts of the work were: characterization of the dosimetric material Al2O3:C using the OSL technique; establishment of the dose evaluation methodology; dose rate determination of beta radiation sources; application of the established method in a practical test with individuals occupationally exposed to beta radiation during a calibration simulation of clinical applicators; validation of the methodology by the comparison between the dose results of the practical test using the OSL and the thermoluminescence (TL) techniques. The results show that both the OSL Al2O3:C detectors and the technique may be utilized for individual monitoring of extremities and beta radiation.

beta radiation

dosimetria

dosimetry

luminescência opticamente estimulada

optically stimulated luminescence

radiação beta

Luminescência opticamente estimulada com aplicações em radioterapia: dependência da dose absorvida e da energia de fótons produzidos em aceleradores clínicos e Microtron - IFUSP / Optically stimulated luminescence with applications in radiotherapy: dependence of absorbed dose and photon energy produced on clinical accelerators and Microtron - IFUSP

Freitas, Carlos Eduardo

28 April 2017

Atualmente a utilização de fótons de raios X e gama na Medicina (radiodiagnóstico e radioterapia) gerou a necessidade do conhecimento da dose absorvida nos tecidos dos pacientes. Para isso, utiliza-se detectores com diversas funcionalidades a fim de conhecer a deposição de energia. Para ser possível a utilização destes materiais, é necessário caracterizá-los tanto quanto à resposta em função da dose absorvida, quanto à dependência com a energia. Neste trabalho foi estudada a dependência energética da resposta OSL dos dosímetros compostos por BeO e Al2O3 em feixes de raios X convencional com espectro largo, feixes de raios X de aceleradores clínicos e do acelerador Microtron do Instituto de Física da USP e fontes gama de Cs-137 e Co-60, em uma faixa de doses desde centenas de mGy até aproximadamente 2 Gy. Foram utilizadas em conjunto simulações em Monte Carlo com o código PENELOPE, que simula o transporte de fótons e elétrons na matéria, a fim de conhecer a deposição de energia nos materiais. Os espectros utilizados nas simulações foram validados através da comparação das características dos feixes tais como a deposição de dose com a profundidade, camada semirredutora, energia média e resolução espectral. Utilizando um sistema de varredura por câmara de ionização controlado remotamente, foi estudada a distribuição de doses no campo de irradiação para definir uma região de irradiação com dose uniforme para pode realizar a irradiação de um conjunto de dosímetros simultaneamente. Foram encontrados valores do fator de dependência energética experimental para os feixes mais energéticos (Co-60, Microtron 5 MeV e aceleradores clínicos de 6 e 15 MeV), com desvio menor que 3% para o Al2O3 e 5% para o BeO, indicando independência com a energia do feixe de irradiação. Já nos feixes de baixa energia, os fatores de dependência energética relativos à energia do Co-60 para o Al2O3 foram de 1,68 e 1,42, e, para o BeO, de 0,78 e 0,90 para os feixes W150 e W200 respectivamente. Estes valores indicam que, nesta faixa de energia, a resposta OSL depende mais fortemente da energia do feixe. As simulações em Monte Carlo feitas para os fatores de dependência energética se mostraram bem consistentes com os valores experimentais para o BeO em toda faixa de energia e para o Al2O3, excetuando-se os feixes de baixa energia, possivelmente pelo não completo conhecimento de todos os elementos constituintes do dosímetro empregado (fita de Luxel®). Quanto às curvas de emissão OSL para as diferentes energias de irradiação, foi observado que o sinal decai mais rápido quanto mais elevada é a energia média do feixe para o BeO. Para o Al2O3, o efeito foi mais sutil e oposto. Os estudos do feixe do Microtron mostraram que, desde que a corrente seja monitorada durante as irradiações para posterior correção da dose, é possível realizar estudos utilizando um feixe de fótons de Bremsstrahlung produzido com alvo externo e energias médias (simuladas e ainda não validadas experimentalmente) próximas às energias das fontes gama de Cs-137 e Co-60. Os resultados experimentais para as respostas OSL dos dois materiais foram compatíveis com as simulações. / Nowadays the use of X and gamma-ray photons in Medicine (radiodiology and radiotherapy) has generated the necessity of knowing the absorbed dose to the tissues of patients. For this purpose, detectors with diverse functionalities are used to know the energy deposition. To make possible the use of these materials, it is necessary to characterize the dose response, as well as the energy dependence of the response. In this work the energy dependence of the OSL response of the BeO and Al2O3 dosimeters was studied for conventional X-ray beams with wide energy spectrum, X-ray beams from clinical accelerators and from the Microtron accelerator of the Institute of Physics (University of São Paulo), and for gamma sources of Cs-137 and Co-60, in a dose range from hundreds of mGy to about 2 Gy. Monte Carlo simulations were used with the PENELOPE code, which simulates the photons and electrons transport of in the matter, to know the energy deposition in the materials. The energy spectra used in simulations were validated by comparison with beam characteristics such as depth dose deposition, half-value layer, mean energy and spectral resolution. Using a remotely controlled ionization chamber scanning system, the dose distribution within the irradiation field was evaluated to define a uniform dose region for irradiation or a set of dosimeters simultaneously. Experimental energy dependence factor values were obtained for the high-energy beams (Co-60, Microtron 5 MeV, and clinical accelerators of 6 and 15 MeV), with a deviation of less than 3% for Al2O3 and 5% for BeO, indicating independence with the beam energy. For the low-energy X-ray beams, the energy dependence factors, relative to the Co-60 energy, for Al2O3 were 1.68 and 1.42, and, for BeO, 0.78 and 0.90 for W150 and W200 beams respectively. These values indicate that, in this energy range, the OSL response depends on beam energy. Monte Carlo simulations for the energy dependence factors were consistent with experimental values for the BeO in entire energy range and for the Al2O3, with the exception of low energy beams, possibly due to the incomplete knowledge of all the elements that constitute the Luxel®. As for the shape of OSL emission curves for the different irradiation energies, it was observed that the signal decays faster the higher is the average beam energy for BeO. For Al2O3, the effect was more subtle and opposite. The Microtron beam scanning has shown that, as long as the current is monitored during irradiation for further dose-rate correction, it is possible to carry out studies using a beam of Bremsstrahlung photons produced with external target and mean energies (simulated but still not validated experimentally) close to the energies of the Cs-137 and Co-60 sources. The experimental results for the OSL responses of both materials were compatible with simulations.

Dosimetria luminescente

Física médica

Luminescência opticamente estimulada

Luminescent dosimetry

Medical physics

Optically stimulated luminescence

Radioterapia

Radiotherapy

Síntese e caracterização de elemento sensor de matriz KAISi3O8, dopadas com Mn ou Gd, obtidos pela técnica sol-gel, visando a aplicação em dosimetria das radiações ionizantes por termoluminescência e luminescência opticamente estimulada. / Synthesis and caracterization of sensor element of kalSi3O8 matrix, doped with mn and gd, obtained by sol-gel method, for application in ionizing radiation dosimetry by thermoluminescence and optically stimulated luminescence.

Pires, Elcio Liberato

12 November 2010

Neste trabalho, estudou-se as propriedades termoluminescentes e fotoluminescentes (em processo anti-Stokes), além de algumas propriedades químicas e físicas, de amostras sintéticas de KAlSi3O8, dopadas com Mn ou Gd, obtidas por meio da técnica sol-gel. O objetivo principal do estudo foi a obtenção de um novo material, com possibilidades reais de aplicação em dosimetria das radiações ionizantes, como elemento sensor de dosímetros luminescentes. As amostras foram obtidas e trabalhadas na forma de pós com tamanho médio de partícula em 600 nm e suas estruturas composta por uma matriz amorfa e com presença de nano partículas, presente apenas nas amostras dopadas. Os resultados de EPR mostraram que os dopantes incorporaram na matriz sob a valência de Mn2+ e Gd3+ respectivamente. As curvas de emissão TL apresentaram formatos semelhantes para todas as regiões estudadas, com a presença de um pico principal de intensidade alta e reprodutível em torno de 170°C. As curvas de decaimento da LOE da amostra não dopada e dopada com Mn exibiram um decaimento total da luminescência para 40 s de estimulação centrada em 470 nm; por outro lado, a amostra dopada com Gd, exibiu um rápido decaimento da LOE (aproximadamente 71,4 % da intensidade inicial), para os primeiros 40 s de estimulação, seguida por um decaimento mais lento e persistente para o restante do período de estimulação, o que indica claramente a presença de duas componentes de decaimento. As amostras dopadas com Mn apresentaram emissão TL mais intensa em torno 570 nm, sendo mais eficientes para os estudos de TL no VIS; enquanto que, as dopadas com Gd, exibiram emissão mais intensa em 470 nm, porém, devido ao formato dos sinais (presença de um único pico aparente), mostraram-se melhor para os estudos de LOE e TL no UV. As amostras dopadas com 0,5% e 8% em mol de Mn e Gd, respectivamente, apresentaram os sinais luminescentes mais intensos, tanto para LOE quanto para TL. No estudo da dependência energética para diferentes energias de raios-X, o tipo de dopante influenciou no padrão de resposta obtido, tendo sido observado um decréscimo da intensidade luminescente com o aumento da energia para a amostra dopada com Mn; para a amostra não dopada e dopada com Gd, não se observou um padrão de decréscimo ou aumento da intensidade com a energia. As curvas de calibração foram ajustadas por meio de retas com grau de confiabilidade alto (fator R2 próximo a 1), e as menores doses detectáveis variaram entre 20 e 60 mGy aproximadamente. Todas as amostras apresentaram perdas consideráveis de intensidade luminescente com o passar do tempo após irradiação, e que foi de aproximadamente 80%, em média, para os 10 primeiros dias. Concluiu-se que, a princípio, os materiais têm maior possibilidade de aplicação na dosimetria em tempo real do que na dosimetria convencional ou passiva por TLDs, devido a sua alta resposta luminescente. Contudo, estudos futuros a respeito de tratamento térmico prévio, podem viabilizá-los a esta última aplicação. Com relação ao campo de aplicação, sugere-se a dosimetria ambiental, devido aos valores Z obtidos, que estão mais próximos do dos materiais que compões rochas e sedimentos. / In this work the thermoluminescent and photoluminescent properties (in the anti-Stokes process), and some other chemical and physical properties of KAlSi3O8 synthetic samples, doped with Mn or Gd, obtained by sol-gel method, were studied. The main goal of this study was to obtain a new material, with real possibility of application in ionizing radiation dosimetry as sensor element in luminescent dosimeters. The obtained samples were composed of powders with average particle size around 600 nm and they structures were composed of an amorphous matrix with presence of nanoparticles, observed only in the doped samples. The EPR results showed that the dopants incorporated in the matrix in the Mn2+ and Gd3+ valences, respectively. The TL glow curves exhibited a similar pattern for all the studied regions, composed of a main high-intensity and reproducible peak around 170 °C. The OSL shine-down curves for the undoped and Mn doped samples exhibited a total decay of luminescence for 40 s of stimulation centered at 470 nm; on the other hand, Gd doped sample exhibited an quick OSL decay (approximately 71.4 % of the initial intensity), for the first 40 s of stimulation, followed by a slower and more persistent decay, which clearly indicates the presence of two decay components. Mn doped samples showed the highest TL emission around 570 nm, being more efficient for the TL studies in the VIS, while the Gd doped samples exhibited the highest emission at 470 nm; however, due to the obtained curve pattern (with an apparent single peak), they had shown more efficient results for the applications in the UV. The samples doped with 0.5 and 8 mol% of Mn and Gd, respectively, showed the highest luminescent response improvement for OSL and TL. Energetic dependence on different X-rays energies study showed that the dopants changed the obtained response pattern. The Mn doped sample exhibited a decrease in luminescent response, while the Gd and the undoped samples do not show a pattern of decrease or increase in luminescence. The calibration curves were fitted by straight lines with high reliability degree (R2 near to 1), and the lowest detectable doses were between 20 and 60 mGy. All the samples exhibited considerable losses in luminescent intensity with the time after irradiation (about 80% for the firsts 10 days). From the results it was concluded that the studied materials are more applicable to real time than to passive TLD dosimetry, due to their high luminescent response. However, studies about previous heating treatment could make them feasible for the last application. The use of these materials in environmental dosimetry is suggested due to the obtained Z values, which are closer to those which form rocks and sediments.

Dosimetria

Dosimetry

Luminescência opticamente estimulada

Optically stimulated luminescence

Sol-Gel

Sol-Gel

Termoluminescência

Thermoluminescence

Dosimetria usando luminecência opticamente estimulada: aplicações, propriedades físicas e caracterização de materiais dosimétricos / Dosimetry using optically stimulated luminescence: applications, physical properties and dosimeter detectors characterization

Nascimento, Luana de Freitas

10 August 2007

Dosimetria usando Luminescência Opticamente Estimulada (OSL) é uma área em constante crescimento dentro da ciência e com excelentes perspectivas comerciais. O Óxido de Alumínio crescido na presença de uma atmosfera rica em Carbono (Al 2O3:C) tem fornecido bons resultados como detector luminescente. Esse material apresenta alta sensibilidade à radiação ionizante e boa resposta à estímulos ópticos. Estima-se que cerca de dois milhões de pessoas façam uso de dosímetros com detectores de Al 2O3:C em rotinas de dosimetria individual externa, que por apresentar varias vantagens experimentais acredita-se substituirá as outras duas técnicas dosimétricas mais adotadas: dosimetria fotográfica e termoluminescente. A certificação de uma técnica de dosimetria para uso comercial exige uma série de estudos. Neste trabalho apresentamos contribuições que complementam o entendimento e adoção da técnica de OSL em dosimetria pessoal. Nossa primeira contribuição consiste numa serie de testes de desempenho mostrando a eficácia da técnica para justificar nossa proposta de certificação de dosimetria individual externa usando OSL no Brasil. No intuito de relacionar centros paramagnéticos e o processo de luminescência, apresentamos resultados de espectros de EPR em detectores OSL. Detectamos e classificamos sinais de EPR relacionados a impurezas nas amostras, porem, sinais dos centros luminescentes não foram detectados. Finalmente, apresentamos um estudo preliminar sobre a resposta de luminescência do Al2O3:C quando exposto a diferentes comprimentos de onda de radiação UV. A inexistência de dosimetria de nêutrons por técnicas de OSL motivou o estudo de vários óxidos dopados com Térbio como possíveis candidatos a material dosimétrico. Alguns resultados preliminares do espectro de EPR desses óxidos quando irradiados em campo beta de 90Sr/90Y e da resposta de luminescência em função da luz de excitação para análise dos tipos de armadilhas criadas pela presença do Tb+3 são apresentados. / Dosimetry using Optically Stimulated Luminescence (OSL) is an expanding scientific research area which also shows excellent commercial potential. Aluminum oxide grown in an atmosphere in the presence of Carbon, Al 2O3:C, presented excellent results as a luminescent detector. This material has high sensitivity when exposed to ionizing radiation and good responses to optical stimulation. Over two million people use dosimeters with Al 2O3:C detectors in personal dosimetry procedures. The experimental advantages of using OSL are believed to replace the two other usual techniques: photographic and thermoluminescent dosimetry. To validate the commercial use of a dosimetry technique it is necessary to evaluate a number of studies. In this work we present results which increase our understanding of OSL dosimetry. First we present a number of behavior tests to show the efficiency of the technique for the purpose of justifying the use of OSL in personal dosimetry in Brazil. In an attempt to correlate paramagnetic centers and the luminescence process we present EPR results in OSL detectors. We could detect and classify impurities centers in our samples; however we could not find conclusive results about paramagnetic centers generated by exposition to ionizing radiation. We present a preliminary study about the luminescence behavior from Al 2O3:C when exposed to different UV wavelengths. The nonexistence of a neutron dosimetry using OSL suggested a study of three types of oxides doped with Terbium which are strong candidates as OSL detectors due to their sensitivity to neutron expositions. We present preliminary results of EPR spectroscopy from these oxides when exposed in a beta field of 90Sr/90Y and the luminescent response when the excitation light is used to analyze traps generated by the presence of Tb+3.

Dosimetria

Dosimetry

Física das radiações.

Luminescência opticamente estimulada

Optically stimulatted luminescence

Radiation physics.