Global ETD Search

121	Epitaxní vrstvy oxidu ceru pro optoelektroniku / Epitaxial films of ceria for opto- electronics Kubát, Jan January 2020 (has links) This diploma thesis studies magneto-optical (MO) response of epitaxial thin films of Co-doped ceria. Thin films were characterized by XPS, LEED, STM, spectroscopic ellipsometry and measurement of MO activity. The work focuses on studying MO response of the films depending on film thickness, cobalt concentration, oxidation state of cerium and chemical state of cobalt. Spectra of MO response consist of low energy region where the MO activity is mediated by transitions from defect induced states to conduction band and high energy region where a peak of MO activity appears which we attribute to transitions from valence band to conduction band. In this work we qualitatively explain the effects of the physico- chemical states of the thin films on the structure of the obtained MO spectra, mainly on the appearance of the MO activity in the low energy region, and on the changes of the position of the MO peak. Compared to other preparation methods the epitaxial thin films allow achieving a shift of the MO peak in the direction of higher photon energy.
122	Molecular Population Dynamics of DNA Tetraplexes using Magneto-Optical Tweezers Selvam, Sangeetha 22 February 2018 (has links) No description available. Analytical Chemistry Biochemistry Biophysics Chemistry DNA Supercoil single-molecule optical tweezers magneto-optical tweezers G-quadruplex i-motif torsionally constrained DNA
123	Development of MOKE Spectrometer for Magneto-optical Studies of Novel Magnetic Materials and Quantum Structures Tanaka, Hiroki 29 December 2008 (has links) No description available. Electrical Engineering MOKE polar Longitudinal Kerr rotation Kerr ellipticity Co Pt Fe GaN LabVIEW Setup calibration Lorentz Magneto optical Kerr effect
124	Spin and Carrier Relaxation Dynamics in InAsP Ternary Alloys, the Spin-orbit-split Hole Bands in Ferromagnetic InMnSb and InMnAs, and Reflectrometry Measurements of Valent Doped Barium Titanate Meeker, Michael A. 15 December 2016 (has links) This dissertation focuses on projects where optical techniques were employed to characterize novel materials, developing concepts toward next generation of devices. The materials that I studied included InAsP, InMnSb and InMnAs, and BT-BCN. I have employed several advanced time resolved and magneto-optical techniques to explore unexplored properties of these structures. The first class of the materials were the ternary alloys InAsP. The electron g-factor of InAsP can be tuned, even allowing for g=0, making InAsP an ideal candidate for quantum communication devices. Furthermore, InAsP shows promises for opto-electronics and spintronics, where the development of devices requires extensive knowledge of carrier and spin dynamics. Thus, I have performed time and polarization resolved pump-probe spectroscopy on InAsP with various compositions. The carrier and spin relaxation time in these structures were observed and demonstrated tunability to the excitation wavelengths, composition and temperature. The sensitivity to these parameters provide several avenues to control carrier and spin dynamics in InAsP alloys. The second project focused on the ferromagnetic narrow gap semiconductors InMnAs and InMnSb. The incorporation of Mn can lead to ferromagnetic behavior of InMnAs and InMnSb, and enhance the g-factors, making them ideal candidates for spintronics devices. When grown using Molecular Beam Epitaxy (MBE), the Curie temperature (textit{$T_c$}) of these structures is textless 100 K, however structures grown using Metalorganic Vapor phase Epitaxy (MOVPE) have textit{$T_c$} textgreater 300 K. Magnetic circular dichroism was performed on MOVPE grown InMnAs and InMnSb. Comparison of the experimental results with the theoretical calculations provides a direct method to map the band structure, including the temperature dependence of the spin-orbit split-off band to conduction band transition and g-factors, as well as the estimated sp-d electron/hole coupling parameters. My final project was on the lead-free ferroelectric BT-BCN. Ferroelectric materials are being investigated for high speed, density, nonvolatile and energy efficient memory devices; however, commercial ferroelectric memories typically contain lead, and use a destructive reading method. Reflectometry measurements were used in order to determine the refractive index of BT-BCN with varying thicknesses, which can provide a means to nondestructively read ferroelectric memory through optical methods. / Ph. D. Spin relaxation III-V semiconductors Carrier relaxation times Phonons Hot carriers Magnetic semiconductors Magneto-optical effects Ferroelectric Lead-free Materials Barium Titanate
125	Réalisation d'une source d'électrons par ionisation d'un jet d'atomes de césium refroidis par laser / Realization of an electron source by ionization of a laser-cooled cesium atomic beam Khalili, Guyve 10 July 2015 (has links) Les faisceaux d’électrons et d’ions sont au cœur de nombreuses techniques instrumentales servant à explorer, analyser et agir sur des matériaux à l’échelle du micromètre au nanomètre (Microscopie électronique, spectrométrie d’électrons, techniques de « FIB »). Les limites de résolution spatiale et énergétique de ces techniques dépendent en grande partie des propriétés des sources qu’elles utilisent et en particulier de leur température de fonctionnement. De fait, depuis plus de 10 ans, le potentiel des atomes froids ionisés comme nouveau type de source d’électrons ou d’ions est intensivement exploré.Le projet expérimental réalisé au LAC et décrit dans cette thèse utilise un jet d’atomes de césium issu d’un piège magnéto-optique à deux dimensions. La température transverse du jet est de l’ordre de 100 µK. Malgré cela, le jet est encore trop divergent après la sortie de la zone de refroidissement pour notre expérience. Afin guider le jet d’atomes jusqu’à la zone d’ionisation, nous avons étudié une méthode particulière de guidage dipolaire. L’utilisation d’un seul laser convenablement réglé nous a permis de guider et pousser les atomes du jet en même temps tout en limitant le chauffage. Nous avons ainsi pu compresser avec ce laser pousseur-guideur le jet d’atomes sur un diamètre de 400 µm à 60 cm de la zone de refroidissement du PMO-2D.Le jet est ensuite ionisé par la méthode d’ionisation en champ électrique statique d’atomes de Rydberg. Les atomes sont tout d’abord excités par laser sur un état de Rydberg (n~30) en présence d’un champ électrique uniforme et homogène. Les atomes du jet ainsi excités voyagent vers une zone présentant un fort gradient de champ où ils vont alors s’ioniser autour de la même valeur de potentiel, réduisant ainsi la taille de la zone d’ionisation et donc de la dispersion en énergie potentielle initiale du faisceau d’électron. La probabilité d’ionisation des atomes dans le champ dépend grandement de l’état de Rydberg préalablement excité. Le choix de l’état de Rydberg optimal, i.e. qui a une probabilité d’ionisation la plus grande possible, nécessite une étude de l’ionisation des états de Rydberg du césium. Un modèle à deux niveaux est présenté dans cette thèse qui permet de retrouver le comportement d’ionisation d’état de Rydberg observé expérimentalement. Ce modèle simple nous a permis de comprendre quel type d’état nous devions exciter. Enfin une étude expérimentale est également présentée. / Electron and Ion beams are at the base of many instrumental techniques used to explore, to analyse and to modify materials from the micrometer to the manometer scale (Electronic Microscopy, Electron Spectrometry, Focused Ion beams techniques…). Spatial and Energetic resolutions of these techniques are strongly dependent on its source‘s properties and particularly their working temperature. In fact, for more than ten years, the potential of ionised cold atoms have been intensively studied. Our experiment at LAC, described in this thesis, uses a 2 dimensional magneto-optical trap (2D-MOT) to create a caesium atomic beam. The transverse temperature of the beam is around 100 µK. Despite this, the beam is still too divergent after exiting the cooling area. To guide the atomic beam up to the ionisation area, we have studied and implemented a particular method of dipolar guiding. The use of a unique laser properly set allowed us to push and guide altogether the atoms of the beam while limiting the heating effect. Thus, we have managed to compress the atomic beam’s size to 400 µm at 60 cm from the output of the MOT.Afterward, the atomic beam is ionised by the method of Rydberg (static) field ionisation. The atoms are firstly excited by laser on a Rydberg state (n~30) as a static homogeneous and uniform electric field is applied. The excited atoms of beam travel therefore to a high-gradient field area where they ionise around the same electric potential value, therefore reducing the ionisation area’s size and the initial potential energy spread of the electron beam. The ionisation probability of the atoms in the field depends greatly on the excited Rydberg state. The choice of an optimal Rydberg state , i.e. with the highest probability of ionisation, needs better knowledge of the ionisation of cesium Rydberg states. A two levels model us to describe the ionisation behaviour of some Ryberg. This simple models helps to understand what kind of states we want to excite in order to optimise the ionisation area‘s size. An experimental study of cesium Rydberg states is also presented. Faisceau d’électrons Faisceau d’ion Atomes froids Césium États de Rydberg Piège magnéto-optique Guide dipolaire Ionisation en champ Electron beam Ion beam Cold atoms Rydberg states Cesium Dipolar guide Field ionization Magneto-optical trap
126	Desenvolvimento de um microscópio óptico e magnetoóptico de varredura em campo-próximo / Development of a Magneto-optical Scanning Near-field Optical Microscope (MO-SNOM) Schoenmaker, Jeroen 26 April 2005 (has links) Para o desenvolvimento da nanociência atual há forte demanda por equipamentos capazes de caracterizar sistemas em escalas da ordem nanométrica. Este contexto impulsionou o desenvolvimento de microscópios ópticos de varredura em campopróximo (Scanning Near-field Optical Microscope SNOM). Diferentemente da microscopia óptica tradicional, os SNOMs detectam a radiação eletromagnética evanescente e, conseqüentemente, a resolução não é limitada pelo critério de Rayleigh. No Laboratório de Materiais Magnéticos IFUSP desenvolvemos um SNOM sensível a efeitos Kerr magnetoópticos (MO-SNOM). Dessa maneira, associamos a alta resolução da técnica à alta sensibilidade dos efeitos magnetoópticos. Trata-se se uma área relativamente pouco explorada e carente de resultados sistemáticos na literatura. Utilizando o MO-SNOM, caracterizamos partículas microestruturadas de Co70.4Fe4.6Si15B10 amorfo com dimensões de 16x16x0.08 microm3 e 4x4x0.08 microm3. Os resultados compreendem dezenas de imagens de susceptibilidade magnetoóptica diferencial com resolução melhor que 200 nm e curvas de histerese local. Em primeira análise, a demonstração de resultados sistemáticos ajuda a estabelecer a técnica. O comportamento magnético das partículas, estudadas sob várias condições de campo aplicado, se mostrou determinado basicamente pela anisotropia de forma. As curvas de histerese local mostraram comportamentos intrinsecamente locais e motivaram uma interessante discussão sobre os parâmetros de caracterização magnética convencionais. As medidas realizadas indicam que o efeito Kerr magnetoótico transversal em campopróximo é similar ao campo-distante. Os resultados são fortemente sustentados por medidas de microscopia magnetoóptica de campo-distante, simulações micromagnéticas e medidas de microscopia de força magnética. Medidas complementares revelam o potencial do MO-SNOM para caracterizações de objetos extensos quanto a potenciais de pinning. Além disso, medidas em filmes finos de NiFe/FeMn acoplados por exchange-bias evidenciam a alta sensibilidade do MO-SNOM, estimada de DM ~ 2 x 10-12 emu. / To support nanosciences evolution, there is a strong demand for developing new instrumentation devoted to nano-scale characterization. In this context, the development of the Scanning Near-field Optical Microscope (SNOM) took place. In contrast to traditional optical microscopes, SNOM deals with evanescent electromagnetic radiation and, consequently, the resolution is no longer limited by the Rayleigh criterion. At Laboratório de Materiais Magnéticos (LMM) IFUSP a SNOM devoted to magneto-optical Kerr effect measurements (MO-SNOM) has been developed. The MOSNOM associates the high resolution of the near-field technique to the high sensibility of the magneto-optical Kerr effect. Near-field magneto-optical microscopy is not yet wellestablished and there is a lack of systematic results in the literature. Using the MO-SNOM, amorphous Co70.4Fe4.6Si15B10 particles with 16x16x0.08 microm3 and 4x4x0.08 microm3 dimensions were studied. With resolution better than 200 nm, several magneto-optical differential susceptibility images and local hysteresis loops were obtained. The systematic results uphold the establishment of this new technique. Under the different applied field conditions, the magnetic behavior of the particles was found to be determined by shape anisotropy. Local hysteresis loops presented shapes intrinsic of local field induced process. The unusual hystesesis loops motivated interesting discussion about the conventional magnetic parameters. The MO-SNOM measurements indicate that the near-field transverse magneto-optical Kerr effect is similar to the far-field case. The results are highly supported by far-field magneto-optical microscopy, micromagnetic simulations and magnetic force microscopy measurements. Complementary measurements indicate the MO-SNOM potential to extensive magnetic surface characterization related to pinning potential distribution. Furthermore, measurements on the exchange-bias coupled NiFe/FeMn thin films make evident the MO-SNOM high sensitivity, estimated to be DeltaM ~ 2 x 10-12 emu. curva de histerese local efeito magnetoóptico instrumentação para nanotecnologia Instrumentation for nanotechnology local characterization magnetic domain wall magnetic particles magneto-optical Kerr effect Near-field microscopy partículas magnéticas
127	O operador de Wigner aplicado a colisões de mudança de estrutura fina entre átomos alcalinos no regime frio / The Wigner operator applied to fine-structure collisions between alkaline cold atoms Braga, Helena Carolina 22 March 2002 (has links) Neste trabalho abordamos os processos de perdas colisionais por mudança de estrutura fina e por escape radiativo. Estes processos são importantes por serem os principais fatores limitantes da densidade e da permanência de átomos confinados em armadilhas magneto-ópticas. A utilização do formalismo de Wigner nos possibilitou tratar a dinâmica dos graus de liberdade internos do sistema de forma puramente quântica, enquanto tratamos os graus de liberdade translacionais de maneira semiclássica. Com este formalismo deduzimos equações inéditas para uma colisão unidimensional e desenvolvemos um algoritmo, também inédito, para a resolução numérica de tais equações. / In this work we study the collision loss processes caused by fine-structure change and radiative escape. These processes are important because they limit the density and the confinement time of atoms in magneto-optical traps. The use of the Wigner-function formalism allows us to treat the internal degrees of freedom purely quantum mechanically, while treating the dynamics of the external degrees of freedom quasi-classically. This dissertation employs this formalism to derive for the first time, quasi-classical equations describing one-dimensional cold collisions, including dissipation due to spontaneous emission, and an algorithm, also for the first time, to solve numerically the mentioned set of coupled equations. Atomic and molecular physics Cold colisions Colisões de mudança de estrutura fina Colisões frias medidas por fótons Fine structure changing collisions Física atômica e molecular Loss processes in magneto optical traps Operador de Wigner Wigner operator
128	Efeito Kerr magneto-óptico espectral e sperimagnetismo de filmes amorfos de terra rara-Co / Spectral magneto-optical Kerr effect and magnetism-speri of the films of amorphous rare earth-Co Tufaile, Adriana Pedrosa Biscaia 28 May 2001 (has links) Observamos o comportamento espectral do efeito Kerr transversal, para filmes amorfos de terra rara - cobalto na região do espectro visível e ultravioleta próximo (comprimento de onda, , entre 325 nm e 670 nm), onde o sinal magnetoóptico apresentou um máximo na região azul do espectro. Concluímos que, para esta região espectral, a variação relativa de refletividade é proporcional à magnetização do cobalto e a constante de proporcionalidade depende da composição da liga e do comprimento de onda da luz. Desenvolvemos uma técnica de modulação de fase, própria para medir o efeito Kerr transversal e a comparamos com a técnica de modulação de amplitude. Montamos um magnetômetro a efeito Kerr que opera com a modulação de fase e utiliza um laser de He-Cd ( = 325 nm e 442 nm) ou um diodo laser vermelho ( = 670 nm). Fazendo uma analogia com a figura de mérito para os efeitos Kerr longitudinal e polar (Fe), nós propusemos uma figura de mérito para o efeito Kerr transversal (FJ. Mostramos que sua dependência do ângulo de incidência é semelhante à da variação relativa de refletividade e, comparando medidas da figura de mérito do efeito Kerr longitudinal com a figura de mérito para o efeito transversal, comprovamos que a grandeza proposta é um bom parâmetro para medida de qualidade magnetoóptica de materiais. Observamos os efeitos do sperimagnetismo de ligas com anisotropia local fraca (Gd-Co) e forte (Ho-Co), através do comportamento térmico dos ciclos de histerese magnética e magnetoóptica. Dentre os fenômenos observados estão os efeitos da compensação, o crescimento hiperbólico do campo coercivo e os efeitos da reorientação de spin. Para a liga de Gd20C080a, transição observada foi uma inversão de spin, cujo o campo magnético aplicado, no qual ocorre a transição, cresce exponencialmente com o aumento da temperatura da amostra. / We have observed the spectral behavior of the transverse magnetooptical Kerr effect (TMOKE) in thin films of rare earth - cobalt amorphous alloys for the visible and the near-ultraviolet ranges of spectrurn (wavelength fiom 325 nm up to 670 nm). The relative change of reflectivity has shown a maximum at the blue wavelength. We have concluded that this magneto-optical signal is proportional to the cobalt magnetization and the proportionality constant depends on the alloy composition and on the wavelength. Besides developing an apparatus and a new phase modulation technique for the TMOKE, we have compared it to the more usual amplitude modulation TMOKE technique. This apparatus operates using either a He-Cd laser ( = 325 nm and 442 nm) for a red diode laser ( = 670nm). We have proposed the figure of merit for the transverse Kerr effect (F,) by analogy with the figure of merit for the longitudinal and polar Kerr effect (Fe). We have measured F, as a function of the angle of incidence and we have shown that F, has the same behavior of the magneto-optical signal. A comparison between F, and Fe has shown that F, is as good parameter as well as Fe for the characterization of the materials magneto-optical quality. We have studied the sperimagnetism of thin films of amorphous alloys with weak (Gd-Co) and strong (Ho-Co) random local anisotropy by the thermal behavior of the magnetic and magneto-optical hysteresis loops. The phenomena of compensation, coercivity and spin-reorientation phase transitions were observed. The comparison between magnetic and magneto-optical hysteresis loops for Gd20C~8h0as shown that the transition occurs from a colinear phase to an opposite collinear phase. In this case, the transition magnetic field grows exponentially when the temperature increases. Efeitos Kerr magneto-ópticos Figura de mérito Figure of merit Filmes amorfos de terra rara-Co magnetism-Speri Magneto-optical Kerr effect Modulação de fase Sperimagnetismp
129	Nanoparticle Probes for Ultrasensitive Biological Detection and Motor Protein Tracking inside Living Cells Agrawal, Amit 09 November 2006 (has links) Semiconductor quantum dots (QDs) have emerged as a new class of fluorescent probes and labeling agents for biological samples. QDs are bright, highly photostable and allow simultaneous excitation of multiple emissions. Owing to these properties, QDs hold exceptional promise in enabling intracellular biochemical studies and diagnosis with unprecedented sensitivity and accuracy. However, use of QD probes inside living cells remains a challenge due to difficulties in delivery of nanoparticles without causing aggregation and imaging single nanoparticles inside living cells. In this dissertation, a systematic approach to deliver, image and locate single QDs inside living cells is presented and the properties of molecular motor protein driven QD transport are studied. First, spectroscopic and imaging methods capable of differentiating single nanoparticles from the aggregates were developed. These technologies were validated by differentiating surface protein expression on viral particles and by enabling rapid counting of single biomolecules. Second, controlled delivery of single QDs into living cells is demonstrated. A surprising finding is that single QDs associate non-specifically with the dynein motor protein complex and are transported to the microtubule organizing center. Accurate localization and tracking of QDs inside cell cytoplasm revealed multiple dynein motor protein attachment resulting in increased velocity of the QDs. Further, spectrin molecule which is known to recruit dynein motor protein complex to phospholipid micelles was found to associate with the QDs. These results may serve as a benchmark for developing new QD surface coatings suitable for intracellular applications. Since, nanoparticles are similar in size to viral pathogens; better understanding of nanoparticle-cell interactions should also help engineer nanoparticle models to study virus-host cell interactions. (Contains AVI format multimedia files) Immunoassay Single molecule detection Live cell imaging Quantum dots Fluorescence Motor protein Viral trafficking Dynein Microtubule Spectroscopy Respiratory syncytial virus Spectrin Nucleic acid Nanotechnology Intracellular delivery Color colocalization Proteins Magneto optical Enrichment Nanoparticles Molecular probes Quantum dots Fluorescent probes Cells
130	Entwicklung eines quantitativen Verfahrens zur Streufeld- und Magnetisierungsbestimmung magnetischer Strukturen / Development of a quantitative method for the determination of the stray field and the magnetization of magnetic structures Dreyer, Sebastian 03 July 2007 (has links) No description available. 530 Physik Mathematics and Computer Science quantitative Magnetisierung inverses magnetostatisches Problem hartmagnetische Strukturen Magneto-Optische Indikatorfilm-Methode quantitative magnetization inverse magnetostatic problem hardmagnetic structures magneto-optical indicatorfilm technique 33.16 33.75 RNI 000: Magnetischer Dipol magnetisches Dipolmoment Magnetisierung

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