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Estudo das propriedades termo-ópticas em sistemas vítreos PZABP dopados com nanocristais semicondutores ZnTe e íons Eu3+Silva, Geraldo Henriques 28 February 2014 (has links)
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Previous issue date: 2014-02-28 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho estudou-se vidros co-dopados por meio de técnicas espectroscópicas de absorção óptica, espectroscopia Raman, fotoluminescência, fotoluminescência resolvida no tempo, lente térmica e capacidade térmica volumétrica. A classe de vidro estudada é a de vidros fosfatos denominados PZABP (P205 – ZnO – Al203 – BaO – PbO), os quais foram dopados com íons de európio (Eu3+), em diferentes concentrações, e telúrio (Te), visando o surgimento de nanopartículas semicondutoras de Telureto de Zinco (ZnTe). O objetivo desse trabalho é investigar a emissão do Eu3+ e sua interação com as nanopartículas semicondutoras no sentido de melhorar as propriedades ópticas e/ou térmicas do sistema vítreo co-dopado. Com a técnica de absorção óptica foi possível observar a alta transparência desse sistema, com uma janela óptica cobrindo a região desde o ultravioleta (em torno de 300 nm) até ao infravermelho médio (em torno de 3000 nm). Observou-se uma banda de absorbância larga centrada em torno de 540 nm quando o sistema vítreo PZABP foi dopado com Te. Essa banda foi atribuída a nanopartículas de ZnTe com comportamento de material na forma bulk. Com a técnica de fotoluminescência observou-se uma emissão avermelhada intensa atribuída aos íons de Eu3+, sendo a transição 5D0 —> 7F2 (611 nm) a mais intensa. Os parâmetros de Judd-Ofelt foram obtidos a partir dos espectros de emissão e absorção. De posse desses parâmetros, encontrou-se o tempo de vida radiativo do estado 5D0 que, juntamente com o tempo de vida experimental, permitiu a determinação da eficiência quântica. Observou-se que a mesma não sofreu uma alteração significativa em função da concentração dos íons de Eu3+ e com a presença do ZnTe. Com a técnica de lente térmica, na presença de nanopartículas de ZnTe, observou-se que a difusividade térmica (D) permaneceu praticamente constante com o aumento da concentração de Eu3+. / IIn this work we have studied co-doped glasses by means of spectroscopic techniques such as optical absorption, Raman spectroscopy, photoluminescence, time-resolved photoluminescence, thermal lens and volumetric heat capacity. The class of studied glasses was of phosphate glasses called PZABP (P2O5 – ZnO – Al203 – BaO – PbO) doped with different concentrations of europium ions (Eu3+), and tellurium (Te), to nucleation of semiconductor nanoparticles of zinc telluride (ZnTe). The goal of this work is to investigate the emission of the Eu3+ and its interaction with the semiconductor nanoparticles aiming to improve the thermo/optical properties of the glass system. With the optical absorption technique was possible to observe the high transparency of the system, which covers an optical window going from the ultraviolet region (about 300 nm) to mid-infrared (about 3000 nm). Also, was observed a large absorbance band centered around 540 nm when the glass system PZABP was doped with Te. This band was attributed to bulk-like ZnTe nanoparticles. Through the photoluminescence technique was possible to observe an intense reddened emission attributed to Eu 3+ ions, being the 5D0 —>7 F2 transition ( 611 nm) the most intense. The Judd-Ofelt parameters were obtained from the absorption and emission spectra. From these parameters, the radiative lifetime of the state 5D0 was found which together with the experimentally measured lifetime allowed the determination of the quantum efficiency. The latter does not present a significant change when the concentration of Eu3+ ions increases and with the presence of ZnTe. With the thermal lens technique, in the presence of ZnTe nanoparticles, was observed that the thermal diffusivity (D) remained almost constant with the increasing of concentration of Eu3+.
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Espectroscopia óptica dos vidros PZABP dopados com terras-raras e nanopartículas semicondutorasCordeiro Neto, Marcelino 06 May 2014 (has links)
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Previous issue date: 2014-05-06 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo desta tese é analisar se as propriedades ópticas apresentadas neste trabalho qualificam o sistema vítreo PZABP, com composição nominal 60P2O5.15ZnO.5Al2O3.10BaO.10PbO (% mol), dopado com íons terras-raras trivalentes, itérbio (Yb3+) e európio (Eu3+) e, também, com nanopartículas semicondutoras de telureto de zinco (ZnTe) como potencialmente útil para construção de dispositivos de emissão de luz na região de 920 nm a 1060 nm. A teoria de Judd-Ofelt é usada nos cálculos dos parâmetros de intensidade Ωλ(λ = 2,4,6). Técnicas de microscopia de força atômica (AFM), absorção óptica (AO), fotoluminescência (FL) e fotoluminescência resolvida no tempo (FLRT) caracterizam o sistema vítreo. A finalidade do ZnTe é aumentar a seção de choque de absorção do sistema vítreo PZABP e transferir energia para os íonsEu3+ e/ouYb3+. A formação de dois tipos de nanopartículas semicondutoras de telureto de zinco ZnTe-propriedades de bulk e pontos quânticos – foram identificados. FL e FLRT sugerem transferência de energia dos íons de Eu3+ e/ou ZnTe para os íons deYb3+. / The aim of this thesis is to analyze if the optical properties presented in this work qualify the glass system PZABP, with nominal composition 60P2O5.15ZnO.5Al2O3.10BaO.10PbO(% mol), doped with trivalent rare earth ions, ytterbium (Yb3+) and europium (Eu3+) as well as zinc telluride (ZnTe) as potentially useful for light emission devices in the infrared region from 920 nm to 1060 nm. The Judd-Ofelt theory is used to calculate the intensity parameters Ωλ(λ = 2,4,6). Atomic force microscopy (AFM), optical absorption (OA), photoluminescence (PL) and time-resolved photoluminescence (TRPL) techniques characterized the vitreous system. The formation of two kinds of ZnTe semiconductor nanoparticles - bulk-like and quantum dots –were identified. PL and TRPL suggest the energy transfer from Eu3+ ions and/orZnTetoYb3+ ions.
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Etude structurale des nanotubes de carbone double parois. / Structural study of double-walled carbon nanotubesGhedjatti, Ahmed 29 January 2016 (has links)
Le nanotube de carbone double parois représente le cas idéal pour étudier la nature de l'interaction entre parois des tubes multiparois. En partant d'échantillons dispersés de DWNTs synthétisés par CVD, nous avons pu, grâce à la microscopie électronique en transmission haute résolution (METHR), établir une procédure robuste de détermination structurale des configurations. Il apparaît alors que certaines configurations structurales sont privilégiées alors que d'autres sont interdites, mettant en évidence les effets du couplage interparoi. À partir de simulations Monte Carlo réalisées sur des DWNTs de configurations interdites, nous avons montré que le tube interne modifie sa structure pour atteindre une stabilité énergétique, ce que nous avons pu rapprocher d'observations expérimentales. Pour étudier les propriétés électroniques des DWNTs observés expérimentalement, nous avons corrélé les techniques de METHR et d'absorption optique pour analyser des populations différenciées de tubes en nombre de parois, diamètre et nature électronique, grâce à la technique DGU (Ultracentrifugation de Gradient de Densité). À l'issue de trois tris successifs, nous avons pu isoler une population de tubes double parois pure à 95% et dont les tubes extérieurs sont de nature semi-conducteur à 90\%. / Double-walled carbon nanotube represents the ideal case to investigate the nature of the interaction between walls of multiwall tubes. Starting with scattered samples of DWNTs synthesized by CVD, we have established a robust procedure for structure determination of configurations based on high resolution electron microscopy transmission (HRTEM). After achieving a statistical study, it appears that some structural configurations have been favored while others are completely forbidden, highlighting the effects of inter-wall coupling. To go beyond, we have performed Monte Carlo simulations at atomic scale on DWNTs with forbidden configurations. As a result, we have shown that the inner tube changes its structure to achieve energy stability, in good agreement with experimental observations. To study the electronic properties of DWNTs observed experimentally, we correlated HRTEM and optical absorption techniques for analyzing differentiated tubes populations by number of walls, diameter and electronic nature, thanks to the technical DGU (Density Gradient Ultracentrifugation ). After three successive sorting, a pure population of double-walled tubes to 95% and of which 90% of the outer tubes are semiconductor has been isolated.
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Etude des propriétés optiques et structurales des matériaux hybrides organiques-inorganiques à base de Plomb : émission de lumière blanche / Optical and structural study of organic-inorganic hybrid materials based on lead halides : white-light emissionYangui, Aymen 12 July 2016 (has links)
Les matériaux hybrides organiques inorganiques ont attirés l'attention vue qu'ils présentent des propriétés optiques et optoélectroniques fascinantes comme la forte photoluminescence même à température ambiante. Cet axe de recherche relativement nouveau, sur cette famille de matériaux, offre une variété d’opportunités technologiques. Dans ce contexte, nous nous sommes intéressés par l'étude des propriétés optiques des deux matériaux hybrides organiques inorganiques (C6H11NH3)2[PbI4] et (C6H11NH3)2[PbBr4], et principalement leurs propriétés de luminescence. Les résultats montre que sous excitation dans l'ultraviolet, (C6H11NH3)2[PbBr4] émet de la lumière blanche, même à température ambiante, ce qui présente un grand intérêt de l'utilisation de ces matériaux comme source d'émission de la lumière blanche. L'origine de cette émission a été étudié par différentes techniques comme la photoluminescence résolution en temps. / Inorganic organic hybrid materials have attracted a great attention do to their special structure and important optical such as the high luminescence, even at room temperature. This relatively new research on this family of materials, offers a variety of technological opportunities. In this context, we are interested in the study of optical properties of both inorganic and organic hybrid materials (C6H11NH3)2[PbI4] and (C6H11NH3)2[PbBr4], and mainly their luminescence properties. The results shows that under ultraviolet excitation, (C6H11NH3)2[PbBr4] show a strong white light emission, even at room temperature, which open a great interest in the use of these materials as a source of the white light emission. The origin of this large emission has been studied by different techniques such as the time resolved photoluminescence measurements .
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Влияние структурного состояния на оптические свойства диэлектрика Al2O3 : магистерская диссертация / Effect of structural condition on optical properties of Al2O3 dielectricЛукманова, А. М., Lukmanova, A. M. January 2015 (has links)
Due to the study basic structural features of ultrafine ceramics, using the scanning electron microscopy method, were identified. Dependency of particle sizes on thermal treatment modes was determined, and average size of the sample grains was determined due to statistical processing of the SEM images, using hardware and software image analysis package SIAMS 700.
It has been established that photoluminescent properties of single-crystalline samples under the study correspond to the publicly available literature data. Photoluminescence spectra were measured after sample finishing and dependence of optical absorption on exposure dose was identified.
The ultrafine ceramic FL was examined and comparison study of the resulting parameters with a single-crystalline sample was carried out. Excitation and emission spectra under various modes of ceramic synthesis were also produced. This study makes it possible to consider ultrafine ceramics as a non-conventional material for high-dose measurements. / В результате исследования были выявлены основные структурные особенности ультрадисперсной керамики методом растровой электронной микроскопии. Определена зависимость размеров частиц от режимов термической обработки, а так же найден средний размер зерен образцов за счет проведения статистической обработки изображений РЭМ на программно-аппаратном комплексе анализа изображений SIAMS 700.
Установлено, что фотолюминесцентные свойства исследуемых монокристаллических образцов соответствуют общеизвестным литературными данными. Измерены спектры фотолюминесценции после полировки образцов и найдена зависимость оптического поглощения от дозы облучения.
Рассмотрена ФЛ ультрадисперсной керамики и проведен сравнительный анализ полученных параметров с монокристаллическим образцом. Так же получены спектры возбуждения и излучения при различных режимах синтеза керамики. Данные исследования позволяют рассматривать ультрадисперсную керамику как перспективный материал для высокодозных измерений.
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Электрохимический синтез и люминесцентные свойства нанотубулярных структур диоксида циркония : магистерская диссертация / Electrochemical synthesis and luminescent properties of zirconium dioxide nanotubular structuresКожевина, А. В., Kozhevina, A. V. January 2017 (has links)
Объект исследования – анодированный диоксид циркония.
Цель работы – электрохимический синтез нанотубулярных структур диоксида циркония и исследование их люминесцентных и абсорбционных свойств.
Методы исследования – растровая электронная микроскопия, рентгенофазовый анализ, абсорбционная и фотолюминесцентная спектроскопия.
Новизна работы – исследована фотолюминесценция анодированного диоксида циркония в диапазоне температур 6.2-700 К. Показано, что интенсивность свечения в области 375 – 600 нм возрастает с уменьшением температуры до 30 К. Спектры свечения описываются двумя пиками гауссовой формы с максимумами Emax = 2.28 и 2.75 эВ и полуширинами ω = 0.77 и 0.67 эВ, соответственно.
Измерены спектры диффузного отражения образцов до и после отжига. Посредством построения Тауца рассчитана энергия края оптического поглощения нанотубулярного диоксида циркония Eg = 5.4 ± 0.1 эВ.
Возможная область применения анодированного диоксида циркония – матрицы солнечных батарей и фотокатализаторы. / The object of investigation is anodized zirconia.
The aim of the work is the electrochemical synthesis of nanotubular zirconia structures and the study of their luminescence and absorption properties.
The methods of investigation are scanning electron microscopy, X-ray phase analysis, absorption and photoluminescence spectroscopy.
The novelty of the work is the photoluminescence of anodized zirconia in the temperature range of 6.2-700 K. It is shown that the luminescence intensity increases with decreasing temperature to 30 K. The emission spectra are described by two peaks of a Gaussian shape with maxima Emax = 2.28 and 2.75 eV and halfwidths ω = 0.77 and 0.67 eV, respectively. A possible field of application of anodized zirconia is the matrix of solar cells and photocatalysts.
Spectra of diffuse reflection of samples before and after annealing were measured. By means of the Tauc plot, the energy of the edge of the optical absorption of nanotubular zirconium dioxide Eg = 5.4 ± 0.1 eV is calculated.
A possible field of application of anodized zirconia is the matrix of solar cells and photocatalysts.
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Структурные и оптические свойства графитоподобного нитрида углерода : магистерская диссертация / Structural and optical properties of graphitic carbon nitrideИльяшенко, И. Н., Ilyashenko, I. N. January 2023 (has links)
В работе проведено исследование структурных, оптических и электронных свойств графитоподобного нитрида углерода (g-C3N4), синтезированных методом пиролиза мочевины при температурах 450–600°С. Метод функционала плотности использован для подтверждения выводов, основанных на экспериментальных данных. Был выполнен анализ литературных данных по g-C3N4, были рассмотрены структурные особенности получаемого материала и их оптическое поглощение. Также приведено описание используемых экспериментальных методов и математическое описание используемого метода моделирования – теории функционала плотности. Структура синтезированных образцов g-C3N4 определена по спектрам рентгеновской дифракции и ИК поглощения. Оптическое поглощение образцов исследованы по спектрам диффузного отражения, преобразованным в соответствии с теорией Кубелки-Мунка, оценка ширины энергетической щели для прямых и непрямых оптических переходов проводилась по методу Тауца. Была установлена линейная зависимость параметров кристаллической решетки и ширины щели от температуры синтеза. Для подтверждения экспериментальных результатов было проведено моделирование возможных структур g-C3N4 методом функционала плотности в пакете Quantum ESPRESSO. Была проведена оптимизация положений атомов для различных модельных структур, рассчитаны ИК спектры и зонные структуры электронных состояний. / In this work we investigated structural, optical and electrical properties of graphitic carbon nitride (g-C3N4) synthesized by thermal treatment of urea at 450– 600°C. Density functional theory calculations were performed to support suggestions based on experimental data. Available research data for g-C3N4 was studied, with interest in structural and absorption properties of the material. Additionally, the experimental methods and theory behind DFT-calculations were described. We determined the structure of g-C3N4 samples based on XRD and IR spectra. Optical absorption was investigated using diffuse reflectance spectra transformed with Kubelka-Munk function. Energy band gap was evaluated with Tauc plot for direct and indirect optical transitions. We show that crystal lattice parameters and band gap linearly depend on the synthesis temperature. To further prove our assumptions based on experimental data we also performed DFT-calculations for g-C3N4 in Quantum ESPRESSO software package. We calculated IR spectra and electronic band structures for models of each sample.
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[pt] INVESTIGANDO GEOMETRIA QUÂNTICA E CRITICALIDADE QUÂNTICA POR UM MARCADOR DE FIDELIDADE / [en] INVESTIGATING QUANTUM GEOMETRY AND QUANTUM CRITICALITY BY A FIDELITY MARKERANTONIO LIVIO DE SOUSA CRUZ 17 October 2023 (has links)
[pt] A investigação da geometria quântica em semicondutores e isoladores
tornou-se significativa devido às suas implicações nas características dos materiais. A noção de geometria quântica surge considerando a métrica quântica
do estado de Bloch da banda de valência, que é definido a partir da sobreposição dos estados de Bloch em momentos ligeiramente diferentes. Ao integrar a
métrica quântica em toda a zona de Brillouin, introduzimos uma quantidade
que chamamos de número de fidelidade, que significa a distância média entre
estados de Bloch adjacentes. Além disso, apresentamos um formalismo para
expressar o número de fidelidade como um marcador de fidelidade local no espaço real que pode ser definido em qualquer sítio da rede. O marcador pode ser
calculado diretamente diagonalizando o hamiltoniano da rede que descreve o
comportamento das partículas na rede. Posteriormente, o conceito de número
e marcador de fidelidade é estendido para temperatura finita utilizando a teoria de resposta linear, conectando-os a medições experimentais que envolvem
analisar o poder de absorção óptica global e local quando o material é exposto
à luz linearmente polarizada. Particularmente para materiais bidimensionais,
a opacidade do material permite a determinação direta do número de fidelidade espectral, permitindo a detecção experimental do número de fidelidade.
Finalmente, um marcador de fidelidade não local é introduzido considerando a
divergência da métrica quântica. Este marcador é postulado como um indicador
universal de transições de fase quântica, assumindo que o momento cristalino
permanece um número quântico válido. Este marcador não local pode ser interpretado como uma função de correlação dos estados de Wannier, que são
funções de onda localizadas que descrevem estados eletrônicos em um cristal.
A generalidade e aplicabilidade destes conceitos são demonstradas através da
investigação de vários isoladores topológicos e transições de fase topológicas em
diferentes dimensões. Essas descobertas elaboram o significado dessas quantidades e sua conexão com vários fenômenos fundamentais na física da matéria
condensada. / [en] The investigation of quantum geometry in semiconductors and insulators
has become significant due to its implications for material characteristics. The
notion of quantum geometry arises by considering the quantum metric of the
valence-band Bloch state, which is defined from the overlap of the Bloch states
at slightly different momenta. By integrating the quantum metric through-out the Brillouin zone, we introduce a quantity that we call fidelity number,
which signifies the average distance between adjacent Bloch states. Furthermore, we present a formalism to express the fidelity number as a local fidelity
marker in real space that can be defined on every lattice site. The marker can
be calculated directly by diagonalizing the lattice Hamiltonian that describes
particle behavior on the lattice. Subsequently, the concept of the fidelity number and marker is extended to finite temperature using linear-response theory,
connecting them to experimental measurements which involves analyze the
global and local optical absorption power when the material is exposed to
linearly polarized light. Particularly for two-dimensional materials, the material s opacity enables straightforward determination of the fidelity number
spectral, allowing for experimental detection of the fidelity number. Finally,
a nonlocal fidelity marker is introduced by considering the divergence of the
quantum metric. This marker is postulated as a universal indicator of quantum phase transitions, assuming the crystalline momentum remains a valid
quantum number. This nonlocal marker can be interpreted as a correlation
function of Wannier states, which are localized wave functions describing electronic states in a crystal. The generality and applicability of these concepts
are demonstrated through the investigation of various topological insulators
and topological phase transitions across different dimensions. These findings
elaborate the significance of these quantities and their connection to various
fundamental phenomena in condensed matter physics.
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Reactive sputtering of mixed-valent oxides: a route to tailorable optical absorptionMurphy, Neil Richard 27 May 2015 (has links)
No description available.
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Estudos das propriedades estruturais e ópticas de vidros teluritos / Studies of the structural and optical properties of the tellurite glassesGiehl, Júlia Maria 25 February 2011 (has links)
Vidros teluritos são considerados fortes candidatos para aplicações em lasers e óptica não linear devido a importantes características, como o elevado índice de refração, baixa energia de fônons, baixa temperatura de transição vítrea e sua fácil preparação. Neste trabalho foram produzidas amostras dos sistemas vítreos TeO2- ZnO-Na2O, TeO2-Nb2O5-Na2O e Te2O-Na2O incluindo ou não dopagens de AgNO3 para estudos estruturais e ópticos. As propriedades estruturais e os mecanismos de recombinação destes vidros foram estudados por meio das técnicas de ressonância paramagnética eletrônica, termoluminescência e correntes de despolarização termicamente estimuladas. Já as propriedades ópticas como o coeficiente de absorção linear, índice de refração linear e não linear foram estudadas por meio das técnicas de absorção óptica, acoplamento de prismas e varredura Z. Foram ainda desenvolvidos estudos da precipitação de nanopartículas de prata para o sistema TeO2-ZnO-Na2O com dopagens de AgNO3 com diferentes temperaturas de tratamento térmico. A caracterização das nanopartículas metálicas foi realizada por meio da técnica de absorção óptica auxiliada por microscopia eletrônica de transmissão e espectrometria de energia dispersiva. Foram observadas por ressonância paramagnética eletrônica quatro respostas paramagnéticas dos vidros irradiados com raio , sendo uma de natureza desconhecida e as outras três identificadas como g¹, g² e g³ atribuídas respectivamente ao centro de buraco do telúrio e do oxigênio, centro de buraco do oxigênio terminal e centro de elétron do telúrio. Foi proposto ainda um modelo para explicar os mecanismos de formação destes centros. A partir dos resultados de termoluminescência observou-se que os processos de recombinação destes centros de defeitos são não radioativos. Neste projeto foram estudados pela primeira vez na literatura os fenômenos de polarização e despolarização em vidros teluritos, com e sem irradiação gama, por meio da técnica de correntes de despolarização termicamente estimuladas. Quanto às propriedades ópticas, foi investigada a influência da adição de prata dos sistemas vítreos TeO2-ZnO-Na2O e TeO2-Nb2O5-Na2O em relação à energia do gap, a cauda de Urbach, índice de refração linear e não linear.Nos resultados de varredura Z do sistema vítreo TeO2-Nb2O5-Na2O foi observado o aumento da assimetria na curva com aumento da adição de AgNO3 Este fenômeno foi explicado por meio de uma adaptação do modelo de Sumi para processos não radiativos, responsáveis pelo aumento do caráter térmico do índice de refração não linear. Por fim um modelo foi criado para explicar a precipitação de nanopartículas de prata na matriz vítrea TeO2-ZnO-Na2O mediante tratamento térmico. / Tellurite glasses are considered powerful candidates for applications in lasers and nonlinear optics due to their important properties such as high refractive index, low phonon energy, relatively low glass transition temperature and easy glass production at room atmosphere. In this work glass samples of the systems ZnO-Na2O, TeO2-Nb2O5-Na2O and Te2O-Na2O were produced, including or not the AgNO3 doping for the structural and optical study purposes. The structural properties and the recombination mechanisms of these glasses were studied by means of the techniques of electron paramagnetic resonance, thermoluminescence and thermally stimulated depolarization currents. The optical properties such as the optical linear absorption coefficient, linear and nonlinear refractive index were studied by means of the optical absorption techniques, prism coupling and Z-scan. Further studies were developed on the precipitation of silver nanoparticles embedded in the glass system TeO2-ZnO-Na2O doped with AgNO3, by means of thermal treatments at different temperatures. The characterization of the metallic nanoparticles was carried out by optical absorption aided by transmission electron microscopy and dispersive energy spectroscopy. Four paramagnetic responses were observed by electron paramagnetic resonance of the -irradiated glasses, one not yet identified and the other three identified as g0, g1 and g3 attributed respectively to the tellurium-oxygen hole center, non-bridging oxygen hole center and tellurium electron center. A model to explain the formation mechanisms of these centers was proposed. The thermoluminescence results indicated that the recombination processes of these centers are non-radiative. This is the first study that deals with polarization and depolarization phenomena in tellurite glasses with and without gamma irradiation, by the technique of thermally stimulated depolarization currents. In what regards the optical properties of the glass systems TeO2-ZnONa2O and TeO2-Nb2O5-Na2O, the effect of the silver doping on the gap energy, Urbach tail, linear and nonlinear refractive indices were investigated. Through the Z-scan technique results of the glass system TeO2-Nb2O5-Na2O, an increasing asymmetry of the curve, with increasing AgNO3 content was observed. This phenomenon was explained through an adaptation of Sumi´s model for non-radiative processes, applied to a silver doped insulating glass, to explain the thermal character of the nonlinear refractive index. Finally, a model was developed to explain the silver nanoparticles precipitation in the TeO2-ZnO-Na2O glass matrix submitted to thermal treatment.
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