Energetic Transitions of Magnetic Vortices

Burgess, Jacob A.J.

Unknown Date

No description available.

Magnetism

Magnetic Vortex

Magnetic Pinning

Scanning Tunneling Microscopy

Torsional Magnetometry

Magneto-optical Kerr Effect

Time Resolved STM

Deformable Vortex Pinning Model

Vortex Core Pinning

Metallic Glass

Spin Polarized STM

Micromagnetics

Efeitos de um feixe não Gaussiano em uma armadilha magneto-óptica / Effects of a non gaussian beam in a magneto optical traps

Krüger, Anne Luise

15 February 2013

Made available in DSpace on 2016-12-12T20:15:49Z (GMT). No. of bitstreams: 1 Anne Luise Kruger.pdf: 3331342 bytes, checksum: f90ffb5e34c66b8e268f864d4f6dab4e (MD5) Previous issue date: 2013-02-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The magneto-optical traps cool and trap atoms in a given region, forming clouds of cold atoms. As the setting of the trap, clouds can be obtained in different geometries such as spherical or ring-shaped. Traps have a wide range of applications, such as building atomic clocks, to obtain the Bose-Einstein condensate and the study of collisions, wherein the ring geometry is interesting to study in low dimensions. The learning of the trap parameters implies in its characterization and thus the appropriate parameters allow to optimize the trap and improve the performance of it s. The objective of our work is to study the behavior of the motion of atoms and the forces that act upon them by varying some parameters of the trap, such as the magnetic field gradient, the detuning between the laser frequency and the atomic transition, the intensity of the laser beams and also the intensity beams profile of the beams. By using the integration method of Runge-Kutta, we present simulations of the trajectory of a trapped atom and the radius of the orbit varying the same parameters of the trap mentioned above. One can find in literature a description of the force exertd on the trapped atoms with Gaussian profile laser beams in the traditional configuration and also with a small misalignment. From the deduction of the force on the trapped atoms with laser beams of Gaussian profile, we present some considerations to find the force acting on the atoms with Gaussian beam profile and simulations in this new configuration. Thus, the possibility of trapping atoms with other intensity beam profiles can be tested. / As armadilhas magneto-ópticas resfriam e aprisionam átomos em uma determinada região, formando nuvens de átomos frios. Conforme a configuração da armadilha, pode-se obter nuvens em diferentes geometrias, como esféricas ou em forma de anel. As armadilhas tem uma grande gama de aplicações, como a construção de relógios atômicos, a obtenção do condensado de Bose-Einstein e o estudo de colisões, no qual a geometria em anel se torna interessante para o estudo em baixas dimensões. Para conhecer os parâmetros da armadilha é necessário fazer sua caracterização. Parâmetros adequados permitem otimizar a armadilha e melhorar a performance da mesma. O objetivo de nosso trabalho é estudar o comportamento do movimento dos átomos e das forças que atuam sobre eles ao variar alguns parâmetros da armadilha, como por exemplo o gradiente de campo magnético, a dessintonia entre a frequência do laser e da transição atômica, a intensidade dos feixes laser e o perfil de intensidade dos feixes. Utilizando o método de integração de Runge- Kutta, apresentaremos simulações da trajetória de um átomo aprisionado e o raio da órbita variando os mesmos parâmetros da armadilha anteriormente citados. Na literatura encontra-se a descrição da força exercida sobre os átomos aprisionados com feixes laser de perfil gaussiano na configuração tradicional e também com um pequeno desalinhamento. A partir da dedução da força sobre os átomos aprisionados com feixes laser de perfil gaussiano, apresentaremos algumas considerações feitas para encontrar a força que atua sobre os átomos com feixes de perfil não gaussiano e simulações realizadas nesta nova consideração. Desta forma, poderá se verificar se existe a possibilidade de aprisionar átomos com feixes de outros perfis de intensidade.

Armadilhas magneto-ópticas

Nuvem em forma de anel

Magneto-optical traps

Cloud-shaped ring

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

Desenvolvimento de um microscópio óptico e magnetoóptico de varredura em campo-próximo / Development of a Magneto-optical Scanning Near-field Optical Microscope (MO-SNOM)

Jeroen Schoenmaker

26 April 2005

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

partículas magnéticas

Instrumentation for nanotechnology

local characterization

magnetic domain wall

magnetic particles

magneto-optical Kerr effect

Near-field microscopy

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

Helena Carolina Braga

22 March 2002

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.

Colisões de mudança de estrutura fina

Colisões frias medidas por fótons

Física atômica e molecular

Operador de Wigner

Atomic and molecular physics

Cold colisions

Fine structure changing collisions

Loss processes in magneto optical traps

Wigner operator

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

Adriana Pedrosa Biscaia Tufaile

28 May 2001

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

Filmes amorfos de terra rara-Co

Modulação de fase

Sperimagnetismp

Figure of merit

magnetism-Speri

Magneto-optical Kerr effect

Propriétés magnéto-optiques de nanotubes de carbone individuels suspendus / Magneto-optical properties of individual suspended carbon nanotubes

Gandil, Morgane

17 July 2017

Cette thèse est consacrée à l’étude expérimentale des propriétés magnéto-optiques intrinsèques des nanotubes de carbone mono-paroi par spectroscopie de photoluminescence résolue en temps.Un dispositif de microscopie optique confocale de grande ouverture numérique (NA = 0.95),incluant un cryostat magnétique, permet l’étude de nanotubes suspendus à l’échelle individuelle,à température cryogénique (jusqu’à 2 Kelvin) et sous champ magnétique (jusqu’à 7 Tesla). L’évolution des spectres et des déclins de photoluminescence avec le champ magnétique montre l’influence de l’effet Aharonov-Bohm sur les deux excitons singulets de plus basse énergie, c’est à-dire l’exciton fondamental qui est optiquement inactif (exciton noir) et un exciton d’énergie supérieure séparé de quelques milliélectronvolts qui est optiquement actif (exciton brillant). L’interprétation de ces résultats à partir d’un modèle d’équations de taux qui intègre le couplage Aharonov-Bohm entre ces deux excitons permet de déterminer séparément les durées de vie excitoniques et de fournir des informations quantitatives sur la relaxation de l’énergie depuis les niveaux supérieurs photo-excités. La relaxation de l’énergie suite à la photo-excitation de la transition S22 conduit à une efficacité de peuplement de l’état brillant quatre fois plus faible que celle de l’état noir, mais qui augmente significativement lorsque la relaxation se produit depuis les niveaux excitoniques KK’. D’autre part, le bon rapport signal à bruit obtenu dans les spectres de photoluminescence permet de révéler l’existence d’un couplage intrinsèque en champ nul entre l’exciton noir et l’exciton brillant ainsi que le maintien de la mobilité excitonique dans les nanotubes suspendus à la température de l’hélium liquide. / This thesis is dedicated to the experimental study of the intrinsic magneto-optical properties of single-walled carbon nanotubes through time-resolved photoluminescence spectroscopy. Measurements are performed on suspended nanotubes samples at the single-object level using a home-built confocal optical microscope with a large numerical aperture (NA = 0.95) operating at cryogenic temperature (down to 2K) and high magnetic field (up to 7T). The evolution of the photoluminescence spectra and decay signals with increasing magnetic fields shows the influence of the Aharonov-Bohm effect on the two lowest-energy singlet excitons, namely the ground exciton which is optically inactive (dark exciton) and an exciton lying a few millielectron volts higher in energy which is optically active (bright exciton). A model of these results based on rate equations and including the Aharonov-Bohm coupling between these two excitons enables to determine separately the excitons lifetimes and to derive quantitative information on the energy relaxation from the photo-excited higher levels. The energy relaxation following the photo-excitation of the S22 transition leads to a bright state population efficiency four times lower than that of the dark state, but it significantly increases when energy relaxation occurs from the KK’ excitonic levels. Thanks to a good signal to noise ratio, the photoluminescence spectra also reveal the presence of an intrinsic zero-field coupling between the dark and the brightexcitons, as well as an excitonic mobility preserved at liquid helium temperature in suspended nanotubes.

Nanotubes de carbone mono-paroi

Photoluminescence

Structure fine excitonique

Effet Aharonov-Bohm

Couplage exciton-phonon

Single-walled carbon nanotubes

Photoluminescence

Excitonic fine structure

Aharonov-Bohm effect

Exciton-phonon coupling

Continuous Beam of Laser-Cooled Ytterbium Atoms for Precision Measurements

Rathod, Ketan D

January 2014

What if an elementary particle such as an electron had an intrinsic electric dipole moment (EDM)? Existence of such an EDM would be an indication of time-reversal symmetry violation in the laws of Physics. The Standard model of Physics is considered incomplete, and theories that go beyond the standard model predict existence of such EDM’s within experimental reach. Experiments that search for their existence serve as a test bed for these theories. Use of laser-cooled Yb atoms launched in a fountain for EDM search has been proposed earlier. This thesis describes the main experimental work on generating a continuous cold beam of Yb atoms using laser cooling. Such cold beams are ideal for performing EDM experiments and have several advantages over the more common pulsed fountain. We demonstrate two ways to achieve this (i) extracting the beam from atoms trapped in 2- dimensions and (ii) deflecting the atomic beam using 1D-optical molasses. We find that the latter method gives a longitudinal temperature of 41 mK, which is a factor of 3 better than the former one. We also demonstrate the implementation of Ramsey’s separated oscillatory field technique in a thermal beam to measure the larmor precession frequency with high precision. This serves as a first step towards implementation with cold beam. Extending the work reported here, we suggest future experiment for measuring an EDM.

Symmetry

Laser-Cooled Ytterbium Atoms

Rubidium Atoms

Thermal Beams

Continuous Beams

Ytterbium Atoms

Ramsey Fringes

Magneto Optical Trap (MOT)

Atoms in Oscillating Fields

Yb

Laser Cooled Yb Atoms

Rb

Cold Rb Atom

Physics

Matériau composite de silice dopée par des nanoparticules magnétiques de ferrite de cobalt : influence de la structuration 3D sur le comportement spectral de l'effet Faraday / Composite material of Silica doped by Cobalt Ferrite magnetic nanoparticles : influence of 3D structure on the spectral behavior of the Faraday effect

Abou Diwan, Elie

24 October 2014

Le laboratoire LT2C utilise depuis quelques années un procédé sol-gel basse température pour développer un matériau magnéto-optique composite parfaitement compatible avec les technologies d’optique intégrée sur verre. Néanmoins, la qualité actuelle du matériau ne permet pas son utilisation dans l’intégration des composants à effets non-réciproques. Dans le but d’exalter les effets magnéto-optiques et le facteur de mérite du matériau, le laboratoire LT2C s’est orienté vers sa structuration 3D en adaptant une approche basée sur les opales. Cette dernière consiste à fabriquer des opales directes à partir de l’auto-arrangement de microbilles de polystyrène sur un substrat de verre. Les opales sont ensuite infiltrées par une solution sol-gel dopée par des nanoparticules magnétiques de ferrite de cobalt. Après traitement thermique, le polystyrène est dissout dans l’acétate d’éthyle pour obtenir une structure 3D formée de trous d’air dans une matrice de silice dopée. Dans ce cadre, l’objectif des travaux de cette thèse consiste tout d’abord à optimiser au mieux la procédure d’élaboration des opales afin d’améliorer leur qualité structurelle et magnéto-optique. Ensuite, il consiste à réaliser une étude systématique des effets magnéto-optiques dans ces structures 3D pour investiguer le comportement spectral de l’effet Faraday, et ainsi qualifier les modifications apportées au facteur de mérite. Une analyse des images MEB et une caractérisation optique montrent que notre méthode d’élaboration conduit à la fabrication d’opales de bonne qualité structurelle et optique. Les mesures de rotation et d'ellipticité Faraday en fonction du champ magnétique appliqué présentent des cycles d’hystérésis, et mettent en évidence un effet non-réciproque, ce qui surligne le caractère magnéto-optique des opales inverses dopées. Une étude spectrale systématique des effets magnéto-optiques dans ces structures 3D montre deux pics et une atténuation de rotation et d’ellipticité Faraday, respectivement en bords et au centre de la BIP. Cependant, ces modifications spectrales significatives ne conduisent pas à une exaltation de la valeur du facteur de mérite. Cela est principalement dû aux défauts structurels qui diminuent le niveau de transmission de l’opale inverse dopée par rapport la couche de référence / LT2C laboratory uses since recent years a low temperature sol-gel process to develop a magneto-optical composite material that is perfectly compatible with glass integrated optics. However, due to an actual low figure of merit, this material cannot be embedded on integrated non-reciprocal devices. In order to exalt the magneto-optical effects and figure of merit, the LT2C laboratory adopted a process based on opals to 3D structure the material. The selected process consists in elaborating direct opals by self-assembling monodisperse polystyrene microspheres on glass substrate. Those opals are then impregnated with a homogeneous solution of sol-gel silica precursors doped with cobalt ferrite nanoparticles. Resulting samples are later oven dried for 1 hour at 90°C. Finally, polystyrene spheres are dissolved in ethyl acetate to obtain a 3D structure formed by air voids in doped silica matrix. In this context, the objective of this thesis is to optimize the fabrication process of opals in order to improve their structural and magneto-optical quality. Furthermore, it consists in making a systematic study of the magneto-optical effect in these structures in order to investigate the spectral behavior of the Faraday effect and thus quantify the figure of merit. Analysis of SEM images and optical characterization prove that our elaboration process leads to the fabrication of opals with good structural and optical quality. Measurements of Faraday rotation and ellipticity as a function of applied magnetic field show hysteresis loops with an unambiguous non-reciprocal behavior. These observations highlight the magneto-photonic character of the doped inverse opals. A systematic spectral study of the magneto-optical effect in these 3D structures displays two peaks and an attenuation of Faraday rotation and ellipticity, respectively at the edges and the center of the photonic band gap. However, these significant spectral modifications do not increase the value of figure of merit. This ascertainment is primarily due to structural defects that lower the transmission magnitude of the doped inverse opals in comparison to a magneto-optical reference monolayer

Opales

Cristaux magnéto-photoniques 3D

Sol-gel

Nanoparticules magnétiques

Rotation Faraday

Ellipticité Faraday

Facteur de mérite

Caractérisation magnéto-optique

Silica opals

3D Magneto-photonic Crystals

Sol-gel

Magnetic Nanoparticles

Faraday rotation

Faraday Ellipticity

Figure of Merit

Magneto-optical Characterization

Návrh propojení far-infrared spektrometru k supravodivému magnetu a magneto-optické měření ve far-infrared oblasti / Design of the far-infrared spectrometer coupling to a superconductive magnet and magneto-optical measurements in the far-infrared region

Dubnická Midlíková, Jana

January 2018

Práca sa zaoberá vývojom ďalekej infračervenej spektroskopie v silnom magnetickom poli. Kombinácia ďalekej infračervenej spektroskopie a silného magnetického poľa je veľmi dôležitým nástrojom pri charakterizácii materiálov, ako sú jedno-molekulové magnety. Predstavuje tiež ideálnu experimentálnu techniku, ktorá dokáže skúmať a objasniť vlastnosti nových 2D materiálov. Ďaleká infračervená spektroskopia v magnetickom poli taktiež umožňuje študovať elektrónovú paramagnetickú rezonanciu (EPR) jedno-molekulových magnetov s veľmi veľkým delením pri nulovom poli, hlavne na báze komplexov prechodných kovov alebo lantanoidov, v ktorých bežne používané EPR systémy neposkytujú experimentálny prístup k magnetickým rezonančným prechodom. V práci sú podrobne popísané dve zostavy ďaleko infračervených spektrometrov pripojené k supravodivým magnetom. Prvá opísaná zostava, ktoré sa nachádza na univerzite v Stuttgarte, je už zmontovaná a jej výkon je diskutovaný. Magneto-optické merania jedno-molekulových magnetov vykonané na tejto zostave sú predstavené. Druhá magneto-optická zostava čerpá zo skúseností získaných pri prvej zostave a je určená pre CEITEC.

Influence of the epitaxial strain on magnetic anisotropy in LSMO thin films for spintronics applications / Effet de la contrainte liée à l’épitaxie sur l’anisotropie magnétique dans les couches minces de LSMO en vue d’applications spintroniques

Chaluvadi, Sandeep kumar

13 December 2017

Nous présentons une étude des effets de contrainte induits par l’épitaxie dans des couches minces La1-xSrxMnO3 (LSMO) (001) (x = 0.33) pour 3 épaisseurs de films (50, 25 et 12 nm) déposés par Ablation Laser Pulsée (PLD) sur différents substrats tels que SrTiO3 (STO) (001), STO buffered MgO (001), NdGaO3 (NGO) (110) et (LaAlO3)0.3(Sr2AlTaO6)0.7 (LSAT) (001). L’étude est complétée par l’effet de la composition sur les propriétés magnétiques de couches minces de La1-xSrxMnO3 avec x=0,33 et 0,38 déposées par Epitaxie à Jets Moléculaires (MBE). Des caractérisations par diffraction de rayons X (XRD), et microscopie à force atomique (AFM), des mesures de résistivité électrique en quatre points en fonction de la température, d’aimantation par magnetometrie à SQUID (Superconducting Quantum Interference Device) et d’anisotropie magnétique par magnétométrie magnéto-optique Kerr vectorielle (MOKE) sont présentées. Les évolutions angulaires de l’anisotropie magnétique, de l’aimantation à rémanence, du champ coercitif et du champ de renversement d’aimantation ont ainsi pu être analysées pour des films épitaxiés LSMO de différentes épaisseurs. Des études en fonction de la température complètent les données. L’origine de l’anisotropie (magnétique, magnétocristalline, magnétostrictive ou liée aux effets de marches et d’angle de désorientation du substrat) est finalement discutée. / We report a quantitative analysis of thickness dependent epitaxial strain-induced effects in La1-xSrxMnO3 (LSMO) (001) (x = 0.33) thin films of thicknesses (50, 25 and 12 nm) grown on various single crystal substrates such as SrTiO3 (STO) (001), STO buffered MgO (001), NdGaO3 (NGO) (110) and (LaAlO3)0.3(Sr2AlTaO6)0.7 (LSAT) (001) by Pulsed Laser Deposition (PLD) technique. We also report the composition dependent magnetic properties of LSMO thin films with x = 0.33 and 0.38 in particular grown onto LSAT (001) substrate by Molecular Beam Epitaxy (MBE). The study mainly includes measurements such as X-ray Diffraction (XRD), Atomic Force Microscopy (AFM), temperature dependent four-probe resistivity, magnetization properties by Superconducting Quantum Interference Device (SQUID), magnetic anisotropy by Magneto-Optical Kerr Magnetometry (MOKE). Our results highlight the detailed study of angular evolution and thickness dependent magnetic anisotropy, remanence, coercivity and switching field in epitaxial LSMO thin films. Temperature-dependent studies are also performed on few selected films. We will also discuss the cause of magnetic anisotropy in LSMO films i.e., magneto-crystalline and magnetostriction anisotropy and the effects of steps or substrate mis-cut induced anisotropy.

Déformation

Dépôt par ablation laser pulsé

Épitaxie par jets moléculaires

Anisotropie magnétique

Magnétométrie magnéto-optique Kerr

Manganese oxide

Epitaxy

Strain

Thin films

Pulsed laser deposition

Molecular beam epitaxy

Magnetic anisotropy

X-ray diffraction

Magneto-optical Kerr magnetometry