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Synthesis Of Rare-earth Doped Lithium TriborateArdicoglu, Burcu 01 July 2005 (has links) (PDF)
Research in the field of non-linear optical (NLO) devices lead to an increasing interest in new borate compounds, capable of expanding the frequency range provided by common laser sources. Lithium triborate (LBO) is a newly developed ideal non-linear optical crystal used in laser weapon, welder, radar, tracker, surgery, communication, etc. Borates containing rare-earth elements are of great interest since they are found to be superior in non-linear optical applications. In this study, synthesis and identification of rare-earth doped lithium triborate was carried out.
Lithium triborate was produced from the solid-state reaction. LBO was then doped with some rare-earth elements (Gd, La, Y) in several different concentrations. Appropriate quantities of Li2CO3 and H3BO3, weighted separately, were mixed and
finely powdered. Then, the mixture was heated at 750 º / C for 14 hrs. The expected reaction is given below.
Li2CO3 + 6H3BO3 --> / 2LiB3O5 + CO2 + 9H2O
Prepared LiB3O5 and Gd2O3, La2O3 and Y2O3 samples were weighed separately at different concentrations and ground together. The mixture was then heated at 750 º / C for 7 hrs.
Characterization of the new products was done by X-Ray Diffraction (XRD) and Infrared (IR) analysis. Differential Thermal Analysis (DTA) was used for examination of the thermal properties of the compounds, morphology of new
compounds was observed by Scanning Electron Microscopy (SEM). The compounds are then subjected to thermoluminescence (TL) studies.
From the XRD studies, no change in the LBO phase related to the addition of rareearth elements was observed. However, peaks of those elements were also become apparent. IR analysis showed that there is no change related to B-O link with the addition of rare earth elements. DTA studies showed that the melting point of LBO decreases with the addition of rare earth elements. In the SEM images, two phases belonging to particles of rare earth elements and lithium triborate were observed clearly. With the TL analysis, it was considered that the samples show dose response but also it was realized that they are affected by fading.
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Mistura de ondas em meio Kerr e bi-estabilidade óptica em filmes / Four wave mixing in Kerr medium and optical bistability in thin filmsEvandro Jose Tavares de Araujo Gouveia 11 February 1992 (has links)
Desenvolvemos um modelo teórico para tratar a mistura de várias ondas em meios absorvedores saturáveis, considerando a auto-difração de duas ondas incidentes numa grade de população, a qual é induzida no meio não-linear. O modelo foi investigado através de resultados experimentais observados em rubi (Al2O3:Cr3+), alexandrita (BeAl2O4:Cr3+) e GdAlO3: Cr3+. Demonstramos, pela primeira vez, transferência de energia por mistura não degenerada de duas ondas (NDTWM) em alexandrita e GdAlO3: Cr3+. Neste ultimo, também observamos a difração de primeira ordem do feixe forte e medimos a variação de sua intensidade com relação a velocidade de deslocamento da grade. No GdAlO3: Cr3+, medimos o espectro de absorção do estado excitado e o espectro da parte real do índice de refração não-linear em quatro linhas do laser de argônio e na região de 560-620 nm de um laser de corante operando com rodamina 6G. Os resultados indicam uma interação entre pares de cromo no estado excitado, seguida da absorção de um fóton, a qual pode explicar a variação da parte imaginaria n2 com a intensidade, conforme observado experimentalmente. Nós tentamos observar bi-estabilidade óptica em GdAlO3: Cr3+ mas não tivemos êxito, provavelmente por causa de efeitos transversais e também pelo aumento da absorção com a intensidade. Por outro lado, observamos um regime multi-estável numa cavidade Fabry-Perot vazia, onde o meio não-linear é o material usado na fabricação dos espelhos, que no caso foi o ZrO2. Também observamos comportamento multi-estável em filtros de inconel, causado pelo acoplamento termo-óptico entre o filtro e a radiação laser. / We have developed a new approach to deal with multi-wave mixing in saturable absorbing media, by considering the self diffraction of two incident waves in a population grating which is created by them in the nonlinear medium. Wehave also made experimental work on ruby (Al2O3:Cr3+), alexandrite (BeAl2O4:Cr3+) and GdAlO3: Cr3+ in order to compare with our theoretical model. We have demonstrated energy transfer by nearly degenerated two wave mixing (NDTWM) in alexandrite and GdAlO3: Cr3+ for the first time. We measured the intensity of the first order diffracted intense beam as a function of the frequency shift between the incident beams in GdAlO3: Cr3+. For this crystal, we have obtained the spectra of the excited state absorption and the real part of the nonlinear index at four wavelengths of an argon laser and in the range 560-620 nm of a rodamine 6G dye laser. These kinds of spectra had never been reported before in that material. The result seems to support our proposal of an excited chromium pair interaction with an additional photon absorption which can explain the observed variation of the imaginary part of the nonlinear Kerr index with the intensity. We tried to observe optical bistability in GdAlO3: Cr3+ but we were unsuccessful, probably due to strong transverse effects and increasing absorption with the intensity. However we observed multistable regime in empty Fabry-Perot cavities in which the mirrors were made of thin films of ZrO2 deposition. A multistable thermo-optical behavior in inconel filters was also observed.
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Estudo da interação interfacial entre polímeros semicondutores e metais ou surfactantes / Investigation of interfacial interaction between polymers and metal or surfactantsFrancisco Carlos Barbosa Maia 01 September 2011 (has links)
Esta Tese aborda duas importantes vertentes de pesquisa em polímeros conjungados (PC), bastante relevantes na Eletrônica Orgânica (EO) e na área de Biossensores. Com respeito à EO, estudam-se as interfaces PC - metal (M) por meio da espectroscopia vibracional de Geração de Soma de Frequências, cuja sigla mais comum é SFG - derivada do seu nome inglês Sum Frequency Generation. Este problema é de grande importância porque na interface acontecem fenômenos essenciais para o funcionamento de dispositivos, como por exemplo a injeção e coleta de cargas. Deve-se ressaltar que poucos trabalhos na literatura investigam o problema da interface PC-M, e aqueles que o fazem, ou sondam interfaces diferentes daquelas de dispositivos reais, ou são estudos teóricos, com necessidade da comprovação experimental, ou ainda usam ferramentas sem especificidade a interfaces. Neste ponto, o estudo da interface PC-M feita nesta Tese apresenta como expressivo diferencial o uso da espectroscopia SFG às interfaces PC-M do tipo encontrado em dispositivos usuais da EO. A técnica SFG permite determinar o ordenamento molecular nas interfaces através da análise quantitativa das vibrações das duplas ligações dos PC, que é a região molecular ativa durante o funcionamento dos dispositivos da EO. Além disso, a simples análise qualitativa dos espectros SFG indica a ocorrência de dopagem (transferência de carga) em algumas interfaces PC-M. Dentre as conclusões deste trabalho, destaca-se o entendimento de como a organização molecular da interface influencia a transferência de carga espontânea entre PC e M. Para tanto, construiu-se um modelo de ordenamento molecular (MOM) baseado nos resultados de SFG, que levando em conta o alinhamento energético (AE) entre os níveis de Fermi dos materiais na interface, estabelece a correlação entre arranjo molecular e transferência de carga. Para o estudo, escolheram-se os metais Al e Au, e os PCs comerciais poli(3-hexiltiofeno) (P3HT) regioregular e poli(9,9-dioctilfluoreno) (PF8), por serem comumente usados em dispositivos da EO. A combinação MOM-AE explica, por exemplo, a não ocorrência de dopagem nas interfaces P3HT-M. Neste caso, o MOM prevê o empacotamento π ao longo do plano da superfície metálica de modo que o contato PC-M estabelece-se através das cadeias alquila (isolantes) do P3HT. No caso de PF8-Au, verifica-se dopagem tipo p. Na interface PF8-Al, embora existam cadeias alinhadas à superfície metálica e com o plano dos anéis paralelo à mesma, favorecendo a transferência de carga, a igualdade das funções trabalho (AE) de cada material impede a dopagem. Também se verificaram diferenças quantitativas no ordenamento molecular do PC em função do método de preparação da amostra: i) PC depositado sobre substrato metálico ou ii) metal evaporado sobre filme do PC. De forma qualitativa, analisam-se copolímeros: poli(9,9-n-dihexil-2,7-fluorenodiilvinileno-alt-2,5 tiofeno) (L29) e iv) poli(9,9-di-hexilfluorenodiilvinileno-alt-1,4-fenilenovinileno) (L16), em interfaces com os mesmos metais. Neste caso, observa-se dopagem em todas as interfaces. O estudo inserido na área de Biosensores é motivado pela vasta gama de trabalhos que relatam o uso das propriedades ópticas (PO) de PEC como ferramenta sensora em sistemas biológicos, e sua modulação via interação com surfactantes. Foi então realizada a análise, por meio de técnicas de espectroscopia óptica convencional - Absorção Óptica (AO) e Fotoluminescência (PL) - e da técnica de Microcalorimetria Isotérmica por Titulação, da interação entre polieletrólitos conjugados (PEC) e surfactantes em solução aquosa. A formação do complexo PEC+surfactante ocorre mediante modificação do estado de agregação do polímero que, por sua vez, gera alterações em suas POs. Assim este estudo visa o entendimento de como as forças hidrofóbicas, eletrostáticas, fatores termodinâmicos e estrutura química de PECs e surfactantes influenciam as POs dos complexos formados. Pela primeira vez na literatura, relata-se a ocorrência de interação eletrônica entre PEC e surfactante. Isto acontece no caso do complexo formado pelo PEC aniônico, derivado do PPV, o poli [5 - metoxi 2 - (3 sulfopropoxi) - 1,4 fenilenovinileno] (MPSPPV), e o surfactante dodecilbenzeno sulfonato de sódio (DBS). A inédita interação eletrônica ocorre em solução, resultando em dramáticas modificações nos estados eletrônicos do MPSPPV devido à forte interação hidrofóbica com o DBS. Isto gera expressivos deslocamentos, em torno de 0,5 eV ou 100 nm, para a luminescência do complexo em relação à do MPSPPV puro. Isso torna o complexo MPSPPV+DBS bastante promissor, pois apresenta POs sintonizáveis, em função da concentração de surfactante. Para explicar as novas POs do complexo MPSPPV+DBS, propõe-se um modelo baseado na formação do complexo MPSPPV+DBS autoorganizado em um arranjo molecular específico. Neste arranjo, a proximidade entre os grupos conjugados de cada molécula leva ao realinhamento dos níveis energéticos, sob regime de forte acoplamento. A fim de estender e generalizar o trabalho, estudam-se surfactantes de diversas estruturas químicas ao constituírem complexos com o PEC aniônico (MPSPPV) e com o PEC catiônico, o poli [2,5 - bis ( 2 - (n, n -dietilamônio brometo) etoxi) - 1, 4 - alt - 1, 4 - fenileno] (DAB). Os surfactantes estudados são: dodecil sulfato de sódio (SDS), dodecilbenzeno sulfonato de sódio (DBS), t - octil - fenoxi - polietoxi - etanol (TX100) e dodeciltrimetil brometo de amônia (DTAB). Essas descobertas podem ter implicações importantes para o projeto de plataformas para aplicações em biosensores, e para a melhoria do desempenho e durabilidade de dispositivos de EO. / This Thesis addresses two important branches of the conjugated polymer (CP) research which are relevant to Organic Electronics (OE) and Biosensors. Concerning OE, the interfaces CP-metal (M) are studied by the Sum-Frequency Generation (SFG) vibrational spectroscopy. This problem is quite important since fundamental phenomena that are essential to the performance of organic devices take place at this interface, such as charge injection and collection. It should be stressed that few papers in the literature focus on the CP-M interface, and they either probe different interfaces from those present in the devices, or use analytical tools without specificity to the interfaces, or else they are theoretical studies requiring experimental verification. In this regard, the study of the CP-M interface accomplished in this Thesis shows the advantage over previous studies due to the use of SFG spectroscopy to the CP-M interfaces usually found in the organic devices. Furthermore, SFG spectroscopy allows a determination of the molecular arrangement at the interfaces by a quantitative analysis of the vibrations of the double bonds, which are the molecular regions directly involved in the operation of OE devices. Furthermore, a simple and qualitative analysis of the SFG spectra leads to the recognition of doping (charge transfer) in some CP-M interfaces. Among the most important conclusions, emerges the understanding of how the molecular order affects the spontaneous charge transfer between PC and M at the interface. This was attained through a molecular order model (MOM) based on the SFG results and on the energy alignment (EA) between the Fermi levels of the PC and metal at the interface. For this study were used the metals Al and Au, and the commercial CPs regioregular poly(3-hexylthiofene) (P3HT) and poly(9,9-dioctylfluorene) (PF8), which are commonly used in OE. The MMO-EA combination explains that reason for not detecting doping in P3HT-M interfaces, where the MMO has suggested π-stacking along the surface plane, resulting in little interaction between CPs electrons with the metal. The p-doping is found in the PF8-Au interface. For the interface PF8-Al, although the MMO implies that the polymeric chains are aligned to the metallic surface with their aromatic rings parallel to the surface, which is favorable for charge transfer process, the equality between the work functions (EA) of the materials prevents doping. It has also been observed quantitative differences in chain orientation for samples prepared by different methods: i) CP film spread over metallic substrates and ii) metal evaporated onto CP films. In a qualitative way, the 2 copolymers - poly(9,9-n-dihexyl-2,7-fluorenediilvinylene-alt-2,5 thiophene) (L29) and poly(9,9-di-hexylfluorenediilvinylene-alt-1,4-fenilenevinylene) (L16) - were analyzed at interfaces with the same metals. In all these cases, doping is observed. The study related to Biosensors is motivated by the large number of paper reporting the use of optical properties (OP) of CPE as a sensing tool in biological systems, and their modulation via interaction with surfactants. Therefore, an investigation of the interaction between conjugated polyelectrolytes (CPE) and surfactants in aquous solution was performed by convencional optical spectroscopy - Optical Absorbance (OA) and Photoluminescence (PL) - and the thermodynamic technique named Isothermal Titration Microcalometry. The formation of the CPE+surfactant complex is followed by modifications in the aggregation state of the polymer, which in turn generates modifications on its OPs. Therefore, this study aims the understanding of how hydrophobic and/or electrostatic forces, thermodynamic factors and chemical structure of the CPE and surfactants affect the OPs of the complexes. For the first time in the literature related to PEC+surfactant complexes, electrocnic interaction is noticed when the an anionic PPV derivative, poly [5 - metoxy 2 (3 sulfopropoxi) 1,4 fenilenovinileno] (MPSPPV), interacts with the surfactant Sodium dodecylbenzene sulfatonate (DBS). The striking electronic interaction occours in aqueous solution and dramatic modifications takes place in the electronic states of MPSPPV due to its strong hydrophobic interaction with DBS. The PL of complex MPSPPV+DBS presents a remarkable blue-shift of about 0,5 eV (or 100 nm), when compared to the PL of MPSPPV. Consequently, the MPSPPV+DBS has tunable OPs, within a wide range of the visible spectrum, as a function of the surfactant concentration. In order to explain these changes of OPs, is proposed a model based on the formation of a self-organized MPSPPV+DBS complex with a specific molecular arrangement. In this hybrid aggregate, the small distance between the conjugated groups of each molecule leads to a realignment of the energy levels. The complete study, however, investigated the complexes formed with the surfactants: Sodium dodecyl sulfate (SDS), Sodium dodecylbenzene sulfatonate (DBS), t - octyl - phenoxy - polyethoxy - ethanol (TX100) and dodecyltrimethyl Ammonium Bromide (DTAB), in interaction with both the anionic PEC (MPSPPV) and the cationic poly [2,5 - bys ( 2 - (n, n -diethylammonium bromide) ethoxy) - 1, 4 - alt - 1, 4 - fenylene] (DAB). These discoveries are expected to have important implications to the design of platforms for biosensor applications, and to the improvement of performance and durability of OE devices.
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Espectroscopia de íons de Eu+3 como impureza em GdAlO3 / Optical spectroscopy of Eu+3 dopped GdAlO3Sebastiao Jose Nascimento de Padua 11 August 1988 (has links)
Espectros de absorção, fluorescência e excitação do íon Eu+3 em GdAlO3 na região do visível são mostrados neste trabalho. Todos os níveis 7Fj (j= 0, 1, 2 e 4) e 5Dj (j= 0 a 2) foram medidos e quase todas as transições do íon, na região do visível, foram identificadas nos espectros. A abertura dos níveis de energia verificada está de acordo com a simetria C5 do campo cristalino. Medidas de absorção polarizada foram feitas com o intuito de verificar a natureza das transições de dipolo e para determinar as representações irredutíveis dos níveis de energia 7F0, 7F1 e 5Dj (j= 0 a 2). Linhas da impureza Er+3 (não intencional) foram identificadas no espectro de absorção e sua presença no cristal foi verificada através dos valores conhecidos dos níveis de energia do íon Er+3 em GdAlO3 [III-4]. Além disso, medidas dos níveis de energia 7F2 do íon Eu+3 através da técnica espectroscópica não linear CARS, foram tentadas. Medidas preliminares destes níveis e dos níveis vibracionais do benzeno e da calcita são mostrados no final da dissertação. / Absorption, fluorescence and excitation of the Eu+3 íon in GdAlO3 in the visible region are presented in this work. All of the 7Fj (j= 0, 1, 2 and 4) and 5Dj (j= 0 to 2) energy levels were measured and almost all of the transitions in the visible region of the ion were seen in the spectra. The splitting of energy levels verified is according to the C5 symmetry of the crystal field. Polarized absorption techniques are used to check the nature of the dipole transitions and to determine the irreducible representations of the 7F0, 7F1 and 5Dj (j= 0 to 2) energy levels. Unintentional Er+3 impurities lines were identified in the absorption spectra and its presence in our crystal was checked through the known values of energy levels of GdAlO3:Er+3 [III-4]. Besides it we began to measure the 7F2 energy levels of them Eu+3 ion by using the nonlinear optical spectroscopy technique known as CARS firsts measurements of these energy levels and of the vibrational mode of benzene and calcite are shown in the end of the dissertation.
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Modelagem da propagação não linear em fibras ópticas : sistemas de transmissão de dados e amplificadores paramétricos / Modeling non linear propagation in optical fibers : data transmission systems and optical parametric amplifiersRieznik, Andrés Anibal 13 August 2018 (has links)
Orientador: Hugo Luis Fragnito / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-13T07:01:10Z (GMT). No. of bitstreams: 1
Rieznik_AndresAnibal_D.pdf: 2453403 bytes, checksum: 66544ed487a1cb0efeea1180adac25c3 (MD5)
Previous issue date: 2008 / Resumo: Apresentamos métodos para a otimização das simulações da propagação não linear da luz em fibras ópticas a través do Método de Split-Step Fourier (SSFM). Os dois efeitos considerados na modelagem da propagação são a dispersão e o efeito Kerr instantâneo. Estudamos tanto as equações acopladas considerando os dois modos principais de polarização quanto as equações escalares, estas últimas aplicáveis em situações em que o campo pode ser considerado um escalar, como em fibras isotrópicas com todos os campos linearmente polarizados e paralelos. Mostramos que o método que propomos para resolver as equações escalares é ordens de grandeza mais rápido do que outros métodos apresentados recentemente na literatura científica na modelagem de sistemas de transmissão de dados. No caso das equações acopladas, mostramos que o método proposto fornece resultados acurados na modelagem de amplificadores paramétricos e o utilizamos para validar um modelo analítico de seis ondas que nós mesmos desenvolvemos. Também utilizamos o método proposto para as equações acopladas para estudar o impacto das variações aleatórias da birrefringência sobre o ganho de amplificadores paramétricos, mostrando a importância da modelagem realista destas flutuações. Todos os códigos desenvolvidos são disponibilizados e distribuídos sob uma licença do tipo de software livre através de um portal criado na internet especialmente para esse fim. / Abstract: We introduce optimized models and algorithms for the simulation of non linear propagation in optical fibers using the split-step Fourier Method (SSFM). Dispersion and the Kerr effect are the two main effects considered in the simulations. We study the coupled equations, considering both polarization modes, as well as the scalar equation, which can be applied when the scalar approximation holds, as in isotropic fibers with all fields linearly polarized and parallels. We show that the method that we propose to solve the scalar equation is orders of magnitude faster than other methods recently introduced in the scientific literature for modeling transmission systems. In the coupled-equations case, we show that the proposed method gives accurate results for the modeling of parametric amplifiers, and use it to validate an analytical six-wave model that we developed. We also use the method for the coupled-equations to study the effects of randomly varying birefringence on parametric amplifiers gain, showing the importance of the accurate modeling of these fluctuations. All the codes developed in this thesis are available for download and distributed under a creative commons license in an internet site created specifically for this purpose. / Doutorado / Ótica / Doutor em Ciências
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Estudo da não-linearidade óptica de origem térmica em cristais líquidos liotrópicos e seu comportamento nas vizinhanças de transições de fase / Study of optical nonlinearity of thermal origin in lyotropic liquid crystals and its behavior in the vicinity of phase transitions.Fabio Luiz Sant\'Anna Cuppo 29 November 2002 (has links)
Este trabalho visou o estudo da resposta óptica não-linear de cristais líquidos liotrópicos nas fases isotrópicas e nemática calamítica e nas vizinhanças das transições de fase nemática calamítica isotrópica e nemática calamítica nemática biaxial. Para este estudo foi utilizada, fundamentalmente, a técnica de varredura Z. Os resultados obtidos indicam que o efeito não-linear em cristais líquidos liotrópicos esta ligado à presença de micelas na mistura e que a anisometria de micela tem influencia na resposta observada. Foi observado ainda que a presença de ferrofluido na mistura, mesmo em pequenas quantidades, causa um grande aumento na absorção óptica da amostra e consequentemente da resposta não-linear. O comportamento do índice de refração não-linear (n IND.2) em função da temperatura nas vizinhanças da transição da fase nemática calamítica para nemática biaxial apresenta um crescimento expressivo de (n IND.2). Nas vizinhanças da transição nemática calamítica para isotrópica esse efeito não foi observado. / This work has been focused on the study of the optical nonlinear response of lyotropic liquid crystals in the isotropic and nematic calamitic phases and in the neighborhood of the nematic calamitic isotropic and nematic calamitic nematic biaxial phase transitions. The basic technique we used is Z-scan. The results obtained indicated that the nonlinear effect in lyotropic liquid crystals is related to the presence of micelles in the mixture and the micelle anisotropy has influence on the observed response. Is has also been observed that the presence of ferrofluid in the mixture, even in small quantities, causes a large raise in the sample optical absorption and consequently in the nonlinear response. The behavior of the nonlinear refractive index (n IND.2) as function of temperature in the neighborhood of the nematic calamitic to nematic biaxial phase transition shows as expressive n IND.2 raise. This behavior has not been observed in the neighborhood of the nematic calamitic to isotropic phase transition.
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Elaboration et caractérisation de nanoparticules hybrides pour la microscopie multiphotonique et la thérapie ciblée du cancerBoksebeld, Maxime 13 October 2016 (has links)
Cette thèse décrit l’élaboration de nouvelles nanosondes disposant de propriétés permettant leur utilisation pour la microscopie multiphotonique ainsi que la thérapie ciblée du cancer. Dans un premier temps, ce travail s’est concentré sur la synthèse de nanoparticules actives en optique non linéaire et pour la photothérapie. Différents types de nanoparticules ont ainsi été élaborées et caractérisées comme des nanobâtonnets d’or, des nanoparticules de carbure de silicium ou de niobate de potassium, et des nanohybrides couplant ces différentes briques de base. Les nanoparticules ont ensuite été fonctionnalisées par des biomolécules comme l’acide folique afin de leur conférer des propriétés de ciblage spécifique vis-à-vis des cellules cancéreuses. La fonctionnalisation de surface des nanoparticules a été caractérisée de manière approfondie par des techniques avancées telles que la spectroscopie infrarouge, XPS et ToF-SIMS. Dans un second temps, les propriétés optiques non linéaires et thérapeutiques de ces nanoparticules ont été étudiées. Ainsi, ces nanosondes ont été utilisées avec succès pour réaliser le marquage de cellules saines et le ciblage spécifique de cellules cancéreuses pour la microscopie multiphotonique. Enfin, les propriétés photothérapeutiques de ces nanoparticules ont également été étudiées pour réaliser la destruction photoinduite de cellules cancéreuses. / This thesis describes the synthesis of new nanoprobes with properties allowing their use for cancer-targeted multiphotonic microscopy and cancer phototherapy. On the one hand, this work was focused on the synthesis of nanoparticles with non-linear optical and phototherapeutic properties. Different nanoparticles were synthesized and used like gold nanorods, silicon carbide or potassium niobate nanoparticles, and nanohybrids coupling these previous nano-building blocks. These nanoparticles were functionalized with biomolecules like folic acid to provide specific cancer-targeting properties. The surface chemistry of these nanoparticles was carefully evaluated through advanced characterization techniques such as infrared spectroscopy, XPS and ToF-SIMS. On the other hand, optical and therapeutic properties of these nanoparticles were studied. These nanoprobes were successfully used to perform healthy cells labelling and cancer cells targeting for multiphotonic microscopy. Phototherapeutic properties of our nanoparticles were also used to induce light-triggered cancer therapy.
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Linear optics quantum computing with single photons from an atom-cavity systemHolleczek, Annemarie January 2016 (has links)
One of today’s challenges to realise computing based on quantum mechanics is to reliably and scalably encode information in quantum systems. Here, we present a photon source to on-demand deliver photonic quantum bits of information based on a strongly coupled atom-cavity system. The source operates intermittently for periods of up to 100 <i>μ</i>s, with a single-photon repetition rate of 1 MHz, and an intra-cavity production efficiency of up to 85%. Our ability to arbitrarily control the photons’ wavepackets and phase profiles, together with long coherence times of 500 ns, allows to store time-bin encoded quantum information within a single photon. To do so, the spatio-temporal envelope of a single photon is sub-divided in d time bins which allows for the delivery of arbitrary qu-d-its. This is done with a fidelity of > 95% for qubits, and 94% for qutrits verified using a newly developed time-resolved quantum-homodyne measurement technique. Additionally, we combine two separate fields of quantum physics by using our deterministic single-photon source to seed linear optics quantum computing (LOQC) circuits. As a step towards quantum networking, it is shown that this photon source can be combined with quantum gates, namely a chip-integrated beam splitter, a controlled-NOT (CNOT) gate as well as a CNOT4 gate. We use this CNOT4 gate to entangle photons deterministically emitted from our source and observe non-classical correlations between events separated by periods exceeding the travel time across the chip by three orders of magnitude. Additionally, we use time-bin encoded qubits to systematically study the de- and re-phasing of quantum states as well as the the effects of time-varying internal phases in photonic quantum circuits.
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Lumière lente par amplification paramétrique dans les fibres optiques biréfringentes / Slow light by parametric amplification in birefringent optical fibersNasser, Nour 06 June 2013 (has links)
Cette thèse a pour thème le processus physique de ralentissement de la lumière induit par amplification paramétrique vectorielle dans les fibres optiques biréfringentes. Notre première étude porte sur la lumière lente induite par amplification paramétrique vectorielle dans les fibres fortement biréfringentes. Contrairement au processus scalaire, nous montrons théoriquement que le processus vectoriel offre la possibilité de créer des bandes de gain paramétrique étroites et éloignées de la pompe, permettant de générer des retards optiques très importants, un ordre de grandeur supérieurs à ceux obtenus en amplification paramétrique scalaire. Des résultats analytiques et issus de simulations numériques dans le cas de dispersion normale ainsi que dans le cas de dispersion anormale sont présentés. Ensuite, nous discutons des principales limitations au retard optique (élargissement de l’impulsion pompe notamment) et nous étudions l’influence positive de l’effet Raman sur le retard optique. Notre seconde étude est consacrée à la lumière lente induite par amplification paramétrique dans les fibres faiblement biréfringentes. Nous traitons l’ensemble des configurations possibles d’instabilité de polarisation selon l’état initial de polarisation de l’impulsion pompe et du régime de dispersion. Nous démontrons clairement que la configuration correspondant à une impulsion pompe polarisée suivant l’axe lent de la fibre et une impulsion signal polarisée suivant l’axe rapide en régime de dispersion normale donne des retards optiques les plus important / This thesis aims to the physical process of slow light induced by vector parametric amplification in highly and weakly birefringent optical fibers. Our first study concerns slow light induced by parametric amplification in highly birefringent fibers. Unlike the scalar process, we theoretically demonstrate that large optical delays can be in principle generated in birefringent fibers, one order of magnitude higher than for the scalar case. Both analytical and numerical results in the case of anomalous dispersion are presented. We further discuss the main limitations for slow light optical delays (signal pulse broadening, pump pulse depletion). The influence of the Raman gain is also studied both analytically and numerically. The second study focuses on slow light induced by parametric amplification in weakly birefringent fibers. We consider all possible configurations of polarization modulation instability, depending on the polarization axis of the pump pulse and on the dispersion regime, and we derive the slow-light optical delays. We clearly demonstrate that the configuration corresponding to a pump pulse polarized in the slow axis of the fiber and a signal pulse polarized on the fast axis, in the normal dispersion regime, gives the largest optical delays.
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Quantum Chemical Studies for the Engineering of Metal Organic MaterialsRivera Jacquez, Hector Javier 01 January 2015 (has links)
Metal Organic Materials (MOM) are composed of transition metal ions as connectors and organic ligands as linkers. MOMs have been found to have high porosity, catalytic, and optical properties. Here we study the gas adsorption, color change, and non-linear optical properties of MOMs. These properties can be predicted using theoretical methods, and the results may provide experimentalists with guidance for rational design and engineering of novel MOMs. The theory levels used include semi-empirical quantum mechanical calculations with the PM7 Hamiltonian and, Density Functional Theory (DFT) to predict the geometry and electronic structure of the ground state, and Time Dependent DFT (TD-DFT) to predict the excited states and the optical properties. The molecular absorption capacity of aldoxime coordinated Zn(II) based MOMs (previously measured experimentally) is predicted by using PM7 Theory level. The 3D structures were optimized with and without host molecules inside the pores. The absorption capacity of these crystals was predicted to be 8H2 or 3N2 per unit cell. When going beyond this limit, the structural integrity of the bulk material becomes fractured and microcrystals are observed both experimentally and theoretically. The linear absorption properties of Co(II) based complexes are known to change color when the coordination number is altered. In order to understand the mechanism of this color change TD-DFT methods are employed. The chromic behavior of the Co(II) based complexes studied was confirmed to be due to a chain in coordination number that resulted in lower metal to ligand distances. These distances destabilize the occupied metal d orbitals, and as a consequence of this, the metal to ligand transition energy is lowered enough to allow the crystals to absorb light at longer wavelengths. Covalent organic frameworks (COFs) present an extension of MOM principles to the main group elements. The synthesis of ordered COFs is possible by using predesigned structures andcarefully selecting the building blocks and their conditions for assembly. The crystals formed by these systems often possess non-linear optical (NLO) properties. Second Harmonic Generation (SHG) is one of the most used optical processes. Currently, there is a great demand for materials with NLO optical properties to be used for optoelectronic, imaging, sensing, among other applications. DFT calculations can predict the second order hyperpolarizability ?2 and tensor components necessary to estimate NLO. These calculations for the ?2 were done with the use of the Berry's finite field approach. An efficient material with high ?2 was designed and the resulting material was predicted to be nearly fivefold higher than the urea standard. Two-photon absorption (2PA) is another NLO effect. Unlike SHG, it is not limited to acentric material and can be used development of in vivo bio-imaging agents for the brain. Pt(II) complexes with porphyrin derivatives are theoretically studied for that purpose. The mechanism of 2PA enhancement was identified. For the most efficient porphyrin, the large 2PA cross-section was found to be caused by a HOMO-LUMO+2 transition. This transition is strongly coupled to 1PA allowed Q-band HOMO-LUMO states by large transition dipoles. Alkyl carboxyl substituents delocalize the LUMO+2 orbital due to their strong ?-acceptor effect, enhancing transition dipoles and lowering the 2PA transition to the desirable wavelengths range. The mechanism 2PA cross-section enhancement of aminoxime and aldoxime ligands upon metal addition of is studied with TD-DFT methods. This mechanism of enhancement is found to be caused by the polarization of the ligand orbitals by the metal cation. After polarization an increase in ligand to ligand transition dipole moment. This enhancement of dipole moment is related to the increase in 2PA cross-sections.
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