Global ETD Search

331	Etude des bases neurales structurales et fonctionnelles des troubles cognitifs et de la qualité de vie dans la schizophrénie par imagerie cérébrale multimodale / Structural and functional neural basis of cognitive impairment and quality of life in schizophrenia : a multimodal neuroimaging study Faget-Agius, Catherine 07 December 2015 (has links) L’objectif principal de ce travail est de caractériser par une approche multimodale d’imagerie les bases neurales structurales et fonctionnelles qui sous-tendent les troubles cognitifs et la QV dans la schizophrénie. L’objectif secondaire est de tester la valeur prédictive des troubles cognitifs et de la QV pour l’évolution et le fonctionnement dans la schizophrénie.Nous avons d’abord exploré les profils d’activation cérébrale au cours d’une tâche de mémoire de travail entre des patients qui ont une courte durée d’évolution de la maladie et ceux qui ont une longue durée d’évolution de la maladie. Nous avons retrouvé une hyper activation de certaines régions cérébrales chez les patients avec un longue durée d’évolution de la maladie comparativement aux patients avec une courte durée d’évolution. Nous avons ensuite étudié les bases neurales structurales de la QV. Nous avons mis en évidence qu’une QV altérée était associée à des changements plus importants de la microstructure cérébrale dans des régions altérées par le processus pathologique de la schizophrénie. Nous avons enfin étudié les réseaux cérébraux fonctionnels qui sous-tendent la QV. Nous rapportons que des régions cérébrales impliquées dans la prise de décision, dans le traitement des émotions et dans les cognitions sociales sont liées aux dimensions de la QV.D’une part nos travaux suggèrent qu’une réorganisation fonctionnelle dans le réseau cérébral de la mémoire de travail joue un rôle compensateur lors de l’évolution de la schizophrénie. D’autre part, nos résultats laissent supposer que la QV serait l’expression précoce des anomalies cérébrales induites par les processus pathologiques de la schizophrénie. / We conducted a multimodal neuroimaging approach combining the study of working memory activation with fMRI, the study of microstructural abnormalities associated with impaired QoL using MTI and the study of the functional brain substrate of QoL using SPECT. We aimed to characterize structural and functional neural basis of cognitive impairment and QoL in schizophrenia. We secondarily aimed to test the predictive value of cognitive impairment and QOL for the evolution and functioning in schizophrenia.First, we explored brain activation during a working memory task between patients with short disease duration and patients with long disease duration. We found a functional reorganization in patients with long schizophrenia duration having brain hyperactivations relative to short schizophrenia duration patients. Secondly, we investigated and compared microstructural abnormalities in patients with preserved Qol and impaired QoL. We showed that patients with impaired QoL had more microstructural changes in brain regions affected by the disease process of schizophrenia.Finally, we studied the neural substrate of QoL in schizophrenia. We reported that brain regions involved in cognitions, emotional information processing and social cognition underlie the different QoL dimensions in schizophrenia. On the one hand, our findings suggest that a functional reorganization in the working memory neural network plays a compensatory role in the schizophrenia course. On the other hand, our results suggest that QoL could be the early expression of brain abnormalities induced by the disease process of schizophrenia. Schizophrénie IRM fonctionnelle Mémoire de travail Durée de la maladie Qualité de vie Imagerie par transfert d’aimantation Spect Prise de décision Traitement des émotions Cognitions sociales Schizophrenia Functional MRI Working memory Disease duration.quality of life Magnetization transfer ratio Spect Decision making Emotional processing Social cognition
332	From Sm1-xGdxAl2 electronic properties to magnetic tunnel junctions based on Sm1-xGdxAl2 and/or [Co/Pt] electrodes : Towards the integration of Zero Magnetization ferromagnets in spintronic devices / Des propriétés électroniques de Sm1-xGdxAl2 aux jonctions tunnel comportant des électrodes Sm1-xGdxAl2 et/ou des multichouches [Co/Pt] : vers l'intégration de ferromagnétiques sans aimantation dans des dispositifs spintroniques Bersweiler, Mathias 22 October 2014 (has links) Le contexte général de ce travail est le développement et l'intégration de nouveaux matériaux magnétiques ayant des propriétés originales et d'intérêt potentiel pour la spintronique. En tant que matériau ferromagnétique d’aimantation nulle, le composé Sm1-xGdxAl2 (SGA) suscite un intérêt particulier, puisqu’il est capable, dans son état magnétique compensé, de polariser en spin un courant d’électrons. Dans un premier temps, des expériences de photoémission résolues en angle et en spin sur synchrotron ont permis d’effectuer une analyse précise de la structure électronique selon diverses directions de la zone de Brillouin et d’estimer de manière directe la polarisation de spin au niveau de Fermi du composé SGA. Dans un second temps, une attention particulière a été portée aux multicouches [Co/Pt] et aux JTMs à base de [Co/Pt]. Les multicouches [Co/Pt] constituent la seconde électrode des JTMs à base de SGA. Leurs propriétés magnétiques (en particulier l'anisotropie perpendiculaire et l'aimantation à saturation) ont été soigneusement étudiées en fonction de l'épaisseur de Pt et de la nature de la couche tampon (Pt, MgO ou Al2O3), et en liaison avec leurs caractéristiques structurales. Leur intégration dans des JTMs à base de [Co/Pt] a permis ensuite de remonter d’une part à la polarisation tunnel effective des multicouches [Co/Pt] et d’autre part aux configurations magnétiques des différentes électrodes, configurations parfaitement expliquées et reproduites par des simulations micro-magnétiques. Dans un troisième temps, les résultats de magnéto-transport au sein des JTMs SGA/MgO/[Co/Pt] sont présentés et discutés / The general context of this work is the development and integration of new magnetic materials with original properties of potential interest for spintronic applications. In this field, the Sm1-xGdxAl2 (SGA) compound drives a particular attention, as a zero-magnetization ferromagnet that can exhibit a spin polarization in its magnetic compensated state. In a first step, synchrotron-based angle and spin resolved photoemission spectroscopy experiments have permitted to perform an accurate analysis of the electronic structure along various directions of the Brillouin Zone and to get a direct estimation of the spin polarization at the Fermi level. In a second step, a special attention has been the paid to [Co/Pt] multilayers and to [Co/Pt]-based MTJs. The [Co/Pt] multilayers would constitute the second electrode in SGA-based MTJs. Their magnetic properties (especially the perpendicular anisotropy and the saturation magnetization) have been carefully investigated as a function of Pt thickness and nature of the buffer layer (Pt, MgO or Al2O3), and in close connection with structural characteristics. Their integration in [Co/Pt]-based MTJs has permitted to determine the [Co/Pt] effective tunnel polarization and to unravel the magnetic configurations of both electrodes which are perfectly explained and reproduced by micromagnetic simulations. In a third step, the results concerning the magneto-transport experiments in SGA/MgO/[Co/Pt] MTJs are presented and discussed Jonctions tunnel magnétiques Anisotropie perpendiculaire Magnétorésistance tunnel Structure électronique Ferromagnétisme sans aimantation Magnetic tunnel junctions Perpendicular anisotropy Tunnel magnetoresistance Electronic band structures Ferromagnetism with zero magnetization 537.5
333	Paléomagnétisme de la matière extraterrestre : implications pour la connaissance des champs magnétiques dans le système solaire / Paleomagnetism of the extraterrestrial material : implications for knowledge of the solar system magnetic fields Cournede, Cecile 04 December 2013 (has links) L’étude du paléomagnétisme des roches extraterrestres fournit des informations sur les champs magnétiques présents dans le système solaire il y a plusieurs milliards d’années. A travers ce travail de thèse nous avons exploré deux grands aspects : un champ de dynamo sur un corps différencié, la Lune, et des champs magnétique dans le système solaire primitif avec l’étude de chondrites (CM et les rumurutites). Notre étude des échantillons lunaires a permis de confirmer l’existence d’un champ de dynamo ancien de forte intensité (~50 µT) entre 3.8 et 3.3 Ga. En utilisant l’anisotropie de susceptibilité magnétique comme indicateur de paléohorizontale et en faisant l’hypothèse d’une géométrie de champ dipolaire, nous avons déterminé que l’axe de cette dynamo était centré sur l’axe de rotation actuel de la Lune. Les chondrites CM et les Rumurutites ont enregistré des champs magnétiques anciens quelques millions d’années après la formation du système solaire. L’aimantation rémanente des chondrites CM constitue probablement le plus ancien enregistrement paléomagnétique jamais mis en évidence. L’estimation de la paléointensité (2 µT) et les contraintes chronologiques dont nous disposons ne permettent pas de trancher entre un champ d’origine externe (solaire ou nébulaire) ou d’origine interne (dynamo). Cette dernière hypothèse laisse entrevoir la possibilité de la formation de corps partiellement différenciés dès les premiers millions d’année du système solaire. Dans les rumurutites, les conclusions sont similaires, avec une paléointensité également estimée à 2 µT. Cependant l’aimantation étant plus jeune, une origine interne est favorisée. / Paleomagnetic studies of extraterrestrials rocks provide information on magnetic fields that prevailed in the solar system several million years ago.Through this work we have explored two main aspects: a field dynamo on a differentiated body, the moon, and magnetic fields in the early solar system with the study of two chondrites classes; CM and rumurutites. Our study of lunar samples confirmed that an old dynamo field of high intensity (~50 µT) existed on the Moon between at least 3.8 and 3.3 Ga. Using the anisotropy of magnetic susceptibility as a proxy for paleohorizontale and assuming a dipole field geometry, we determined that the dynamo axis was centered on the actual rotation axis of the Moon.CM chondrites and Rumurutites recorded old magnetic fields acquired few million years after the formation of the solar system. The remanent magnetization of CM chondrites is probably the oldest paleomagnetic record never evidenced. The estimated paleointensity (2 µT) and time constraints not allowed to discriminate between a field of external (solar or nebular) or internal origin (dynamo). This latter hypothesis suggests that formation of partially differentiated body could occur during the first million years of the solar system history. In rumurutites, conclusions are similar, with a paleointensity also estimated at ~2µT. However, the magnetization is younger and an internal origin is favored. Matière extraterrestre Champs magnétiques Échantillons lunaires Chondrites Minéralogie magnétique Aimantation naturelle Paléointensité Différentiation des corps parents Extraterrestrial material Magnetic fields Lunar samples Chondrites Magnetic mineralogy Natural magnetization Paleointensity Parent bodies’ differentiation
334	Estudo das propriedades estruturais, ópticas e magnéticas de nanopartículas de Zn1-xMTxO (MT=Mn, Fe) obtidas por diferentes métodos de síntese Costa, Ivani Meneses 27 February 2015 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In this work we have studied the magnetic, optical and structural properties of ZnO nanoparticles pure and doped with different concentrations of Fe and Mn synthesized by three different synthesis methods; co-precipitation (CP), hydrothermal (SH) and thermal decomposition (DT). The samples were characterized by measurements of X-ray diffraction (XRD) and analyzed allied to Rietveld refinement method, absorption in the UV-Vis region, scanning and transmission electron microscopy (SEM and TEM), and magnetization measurements as a function of field and temperature (MvsH, MvsT). Through XRD analysis we have observed a dependence of the nanoparticle size with increasing temperature for both CP and SH methods well as a change in morphology with temperature for the samples system synthesized by SH. XRD analysis through the Williamson-Hall plot and TEM images show that particles obtained by SH and CP methods present an anisotropic growth, different of the particles obtained by DT method, that they present a spherical-like shape. The XRD results for Zn1-xFexO systems obtained by the CP and SH present only one phase but from point of view magnetic properties we have observed that these samples present transition at low temperature (T = 10 K) similar to an antiferromagnetic ordering. However, the Zn1-xFexO samples obtained by DT synthesis we have observed a paramagnetic behavior evidenced by MvsT curves. Therefore, at room temperature the MvsH curves indicated a ferromagnetic behavior. All Mn-doped ZnO samples present a paramagnetic behavior. The UV-Vis results show for all systems a slow increase in gap band with increases of dopant concentration. / Neste trabalho estudamos as propriedades magnéticas, ópticas e estruturais de nanopartículas de ZnO puras e dopadas com diferentes concentrações Fe e Mn sintetizadas por três diferentes métodos de síntese; co-precipitação (CP), hidrotérmico (SH) e decomposição térmica (DT). As amostras foram caracterizadas por medidas de difração de raios X (DRX) e analisadas juntamente ao método de refinamento Rietveld, absorção na região UV-Vis, microscopia eletrônica de varredura e de transmissão (MEV e MET) e medidas de magnetização em função do campo e da temperatura (MvsH, MvsT). Através das análises de DRX, nós temos observado uma dependência do tamanho da nanopartícula com o aumento da temperatura para ambos os métodos CP e SH, bem como uma variação na morfologia com a temperatura para o sistema de amostras sintetizado pela SH. Análises do gráfico de Williamson-Hall e imagens de MET mostram que as partículas obtidas através dos métodos SH e CP apresentam um crescimento anisotrópico, diferentemente das obtidas pelo método de DT, as quais apresentam morfologia esférica. Além disso, os resultados de DRX mostram que os sistemas Zn1-xFexO obtidos pela CP e SH apresentam somente uma fase, porém do ponto de vista das propriedades magnéticas observamos que as amostras apresentam uma transição em baixa temperatura (T = 10 K) similar a um ordenamento antiferromagnético. Por outro lado, as amostras de Zn1-xFexO obtidas pela síntese de DT observamos um comportamento paramagnético evidenciados pelas curvas de MvsT. No entanto, em temperatura ambiente as curvas de MvsH indicaram um comportamento ferromagnético. Todas as amostras de ZnO dopadas com Mn apresentam um comportamento típico de um material paramagnético. Resultados de absorção de UV-Vis para todos os sistemas estudados mostram um leve aumento na energia de gap com o aumento da concentração do dopante. Física Nanopartículas Óxido de zinco Magnetismo Semicondutores Método Rietveld Semicondutor magnético diluído (SMD) Síntese química DRX UV-Vis Magnetização ZnO Nanoparticles Rietveld method Diluted magnetic semiconductor (DMS) Chemical synthesis XRD UV-Vis Magnetization CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA
335	Síntese e caracterização de nanopartículas de CeO2 dopadas com metais de transição : estudo das propriedades estruturais e magnéticas Barbosa, Cristiane Cupertino Santos 19 February 2018 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this work we study the structural and magnetic properties of pure and TM-doped CeO2 nanoparticles (TM: Mn, Cr, Co and Fe) obtained by the co-precipitation and hydrothermal methods. X-ray diffraction (XRD) results allied to the Rietveld refinement method indicate that all samples present single-phase with structure isomorphous to the CeO2. Average crystallites size was determined using the full width at half maximum from XRD patterns and their sizes were from of 7 to 13 nm. Transmission electron microscopy (TEM) images 10% doped samples show the presence of particles with spherical-like morphology and average sizes in good agreement with the estimated by XRD. From ultraviolet–Visible (UV–Vis) spectroscopy absorption measurements we estimated the optoelectronic gap of the samples, which vary between 2.87 and 3.44 eV. Analyses from magnetization curves as a function of temperature (MvsT) using Curie-Weiss law show that the number of paramagnetic ions per molecule (n) increases with the increasing of the Mn concentration. Already for 10% doped samples with different ions the (n) obeys the following order Mn ˂ Fe ˂ Cr ˂ Co for samples obtained by co-precipitation and Co ˂ Cr ˂ Mn ˂ Fe for the samples obtained by hydrothermal synthesis. Magnetization curves as a function of the magnetic field (MvsH) show that the the systems present a weak ferromagnetic behavior at 5K and paramagnetic at temperature higher than 200 K. / Neste trabalho estudamos as propriedades estruturais e magnéticas de nanopartículas de CeO2 pura e dopadas com diferentes concentrações de metais de transição (MT: Mn, Cr, Co e Fe) obtidas pelo método de co-precipitação e de síntese hidrotérmica. Resultados de difração de raios X (DRX) aliados ao método de refinamento Rietveld indicam a formação de uma única fase isomorfa ao CeO2, cujos tamanhos médios das nanopartículas variam entre 7 e 13 nm quando sintetizadas por co-precipitação e entre 8 e 12 nm quando obtidas por síntese hidrotérmica. Imagens de microscopia eletrônica de transmissão (MET) das amostras dopadas com 10% dos metais de transição mostram a presença de partículas com morfologia tendendo à esferas e tamanhos médios das partículas em bom acordo com os tamanhos estimados por DRX. Através de medidas de absorção na região do ultravioleta ao visível (UV-vis) estimamos o gap optoeletrônico das amostras, os quais variam entre 2,87 e 3,44 eV. Resultados das medidas de magnetização em função temperatura (MvsT) usando a lei de Curie-Weiss indicam que o número de íons paramagnéticos por molécula cresce de forma sistemática com o aumento da concentração de Mn nos dois métodos de síntese. Já para o caso das amostras dopadas com 10% do MT, esse número obedece a seguinte ordem Mn ˂ Fe ˂ Cr ˂ Co para o sistema obtido por co-precipitação e Co ˂ Cr ˂ Mn ˂ Fe para o sistema obtido por síntese hidrotérmica. Medidas de magnetização em função do campo magnético (MvsH) mostram que as nanopartículas apresentam um possível ordenamento ferromagnético fraco em 5K e um comportamento típico de um material paramagnético acima de 200K. / São Cristóvão, SE Física Óxido de cério (CeO2) Nanopartículas UV-vis Magnetização Nanoparticles X-ray diffraction (XRD) UV-vis Magnetization. CIENCIAS EXATAS E DA TERRA::FISICA
336	Paměťová buňka založená na magnetických vortexech / Magnetic vortex based memory device Dhankhar, Meena January 2021 (has links) Magnetické vortexy jsou charakterizovány směrem stáčení magnetizace a polarizací vortexového jádra, přičemž každá z těchto veličin nabývá dvojice stavů. Ve výsledku jsou tak k dispozici čtyři možné stabilní konfigurace, čehož může být využito v multibitových paměťových zařízeních. Tato dizertační práce se zabývá selektivním zápisem stavů magnetického vortexu v magnetickém disku pulzem elektrického proudu stejně jako jejich následným elektrickým čtením. Před samotnou realizací elektrických měření byla provedena statická měření přepínání stavů vortexu pomocí různých proudových pulzů v kombinaci s technikami MFM a následně MTXM. Následně byl realizován dynamický odečet stavu vortexu kompletně založený na elektrických měřeních. Ovládání cirkulace vortexu je založeno na geometrické asymetrii vytvořené oříznutím magnetického disku a vytvořením fazety. Plochý okraj disku definuje preferenční smysl stáčení cirkulace během procesu nukleace vortexu. Řízení polarity se obvykle provádí ve dvou krocích. V prvním kroku, homogenně magnetizovaná vrstva s kolmou magnetickou anizotropií umístěná na dně disku definuje výchozí polaritu vortexu v době nukleace. V druhém kroku, je-li to nutné, je polarita vortexu přepnuta pomocí rychlého proudového pulzu. Proto je možné nastavit požadovaný stav cirkulace vysláním nanosekundového pulsu s nízkou amplitudou, následované nastavením polarity pikosekundovým pulsem s vysokou amplitudou. Stavy vortexů jsou pak detekovány elektrickou spektroskopií prostřednictvím anizotropní magnetorezistence. Vzorky pro všechna statická a dynamická měření byly připraveny pomocí elektronové litografie v kombinaci s lift-off procesem.
337	Výpočet optimálního skluzového kmitočtu asynchronního motoru pro minimalizaci ztrát / Calculation of optimum slip frequency of induction motor for minimisation of its losses Bednařík, Václav January 2014 (has links) This master’s thesis focuses on the minimisation of losses by calculation of optimum slip frequency of induction motor. The next point of this master‘s thesis is supersaturation. Supersaturation must be solved for the size of losses, because of the effect that is cause of the losses, when current increases with saturation. However current is not increase proportionally with increasing saturation, but increases several times more. This problem is included in the calculation of the slip frequency. Optimum of slip frequency is solve for modified gamma model of induction machine. In the main point of this thesis is outlined the process, how the optimum can be found. With same process were already were found the equations, but they were too extensit. In the end is solved the optimum of slip frequency be minimum of the flux density.
338	Anisotropic hard magnetic nanoparticles and nanoflakes obtained by surfactant-assisted ball milling Pal, Santosh Kumar 23 November 2015 (has links) The research work in this thesis has been devoted to understand the formation mechanism of single-crystalline and textured polycrystalline nanoparticles and nanoflakes of SmCo5 and Nd2Fe14B prepared by surfactant-assisted (SA) ball milling and to study their microstructural and magnetic properties. The nanoparticles and nanoflakes are promising candidates to be used as hard magnetic phase for the fabrication of high-energy-density exchange-coupled nanocomposite magnets. The influence of a range of different surfactants, solvents and milling parameters on the characteristics of ball-milled powder has been systematically investigated. Small fraction (~10 wt.%) of SmCo5 nanoparticles of average diameter 15 nm along with textured polycrystalline nanoflakes of average diameter 1 µm and average thickness of 100 nm were obtained after SA – ball milling of SmCo5 powder. Isolated single-crystalline particles (200-500 nm) and textured polycrystalline flakes (0.2-1.0 µm) of Nd2Fe14B have been prepared in bulk amount (tens of grams), after SA – ball milling of dynamic-hydrogen-disproportionation-desorption-recombination (d-HDDR) processed Nd2Fe14B powder. These single-crystalline Nd2Fe14B particles are promising for their microstructure for the fabrication of exchange-coupled nanocomposite permanent magnets. The SmCo5 and Nd2Fe14B flakes and particles were well aligned in magnetic field: the former showed [001] out-of-plane orientation while the latter showed [001] in-plane orientation. A maximum degree of texture values of 93 % and 88 % have been obtained for the magnetically-oriented SmCo5 flakes and Nd2Fe14B single-crystalline particles, respectively. SA – ball milling resulted in an increase of coercivity of SmCo5 particles from 0.45 T for un-milled powder to a maximum value of 2.3 T after 1 h of milling, further milling resulted in a decrease of the coercivity. The coercivity of SA – ball-milled Nd2Fe14B particles decreased drastically from 1.4 T for un-milled d-HDDR powder to 0.44 T after 0.5 h of milling, isolated single-crystalline particles (200-500 nm size) obtained after 4 h of SA – ball milling showed a coercivity of 0.34 T. The drastic decrease in coercivity of ball-milled Nd2Fe14B particles is attributed to the morphological change because the demagnetization in Nd2Fe14B magnets is governed by nucleation mechanism. A remarkable enhancement in coercivity from 0.26 T to 0.70 T for ethanol-milled sample and from 0.51 T to 0.71 T for oleic-acid-milled samples has been obtained after an optimum heat-treatment at 400 0C. An increase of α-Fe and Nd2O3 phase contents and a sharp change of lattice parameter c of Nd2Fe14B was observed when heat-treating above 400 0C. The change in lattice parameter at higher temperature is thought to be due to partial substitution of carbon atoms present in the surfactant or solvent, for boron atoms. / Das Ziel dieser Arbeit ist es, den Mechanismus der Herstellung von einkristallinen und texturierten polykristallinen Nanopartikeln und Nanoflakes aus SmCo5 und Nd2Fe14B durch Tensid-gestütztes Kugelmahlen zu verstehen. Des Weiteren soll deren Gefüge und magnetische Eigenschaften untersucht werden. Die Nanopartikel sind vielversprechende Kandidaten zur Verwendung als hartmagnetische Phase in hochentwickelten, austauschgekoppelten Nanokomposit-Magneten. Der Einfluß der Art der verwendeten Tensid, Lösungsmittel sowie Mahlparameter auf die Eigenschaften der kugelgemahlenen Pulver wurde systematisch untersucht. Ein kleiner Anteil (~10 m.%) von SmCo5 Nanopartikeln mit mittlerem Durchmesser von 15 nm zusammen mit texturierten polykristallinen Plättchen mit mittlerem Durchmesser von 1 µm und mittlerer Dicke von 100 nm wurden nach Tensid-gestütztes Kugelmahlen erzeugt. Alleinstehende einkristalline Partikel (200-500 nm) und texturierte polykristalline Plättchen (0,2-1,0 µm) aus Nd2Fe14B wurden in größeren Mengen (einige 10 g) hergestellt. Das verwendete Ausgangspulver wurde hierbei durch dynamisches-Hydrierung-Disproportionierung-Desorption-Rekombination (d-HDDR) hergestellt und anschließend Tensid-gestütztes Kugelmahlen. Die genannten einkristallinen Nd2Fe14B Partikel sind ebenfalls vielversprechend als hartmagnetischer Bestandteil von austauschgekoppelten Nanokomposit-Magneten. Die SmCo5- und Nd2Fe14B-Plättchen und -Partikel wurden alle in einem Magnetfeld ausgerichtet: erstere zeigten aus der Ebende herauszeigende und letztere in der Ebene liegende [001]-Orientierung. Ein maximaler Texturgrad von 93% wurde für im Magnetfeld ausgerichtete SmCo5 flakes bzw. 88% für einkristalline Nd2Fe14B Partikel erzielt. Tensid-gestütztes Kugelmahlen führte zu einem Anstieg der Koerzitivfeldstärke von SmCo5 Partikeln von 0,45 T für ungemahlenes Pulver auf 2,3 T nach einer Mahldauer von 1 h. Weiteres Mahlen führte zu einem Abfall der Koerzitivfeldstärke. Die Koerzitivfeldstärke von Tensid-gestütztes Kugelmahlen Nd2Fe14B Partikeln verringerte sich stark von 1,4 T von ungemahlenem d-HDDR Pulver auf 0,44 T nach 0,5 h Mahlen. Freistehende einkristalline Partikel (200-500 nm groß), welche nach 4 h Tensid-gestütztes Kugelmahlen erhalten wurden, zeigten eine Koerzitivfeldstärke von 0,34 T. Der starke Abfall der Koerzitivfeldstärke von gemahlenen Nd2Fe14B Partikeln wird die morphologischen Veränderungen zurückgeführt, da die Ummagnetisierung nukleationsgesteuert ist. Ein bemerkenswerter Anstieg der Koerzitivfeldstärke von 0,26 T auf 0,70 T wurde für eine in Ethanol gemahlene Probe verzeichnet, sowie ein Anstieg von 0,51 auf 0,71 T für eine Probe, welche mit einer Zugabe von Oleinsäure gemahlen wurde. Beide Proben wurden einer optimierten Wärmebehandlung bei 400°C unterzogen. Bei höheren Temperaturen wurde für Nd2Fe14B ein Anstieg der Menge an α-Fe und Nd2O3 gefunden und eine sprungartige Veränderung des Gitterparameters c der Nd2Fe14B Phase. Die Veränderung des Gitterparameters wird auf die partielle Substitution von Kohlenstoffatomen des Tensid oder Lösungsmittels gegen Boratome zurückgeführt. info:eu-repo/classification/ddc/620 ddc:620
339	The Effect of In-Chain Impurities on 1D Antiferromagnets: An NMR Study on Doped Cuprate Spin Chains Utz, Yannic 16 January 2017 (has links) The thesis is devoted to the study of in-chain impurities in spin 1/2 antiferromagnetic Heisenberg chains (S=1/2 aHC's)---a model which accompanies the research on magnetism since the early days of quantum theory and which is one of the few integrable spin systems. With respect to impurities it is special insofar as an impurity perturbs the system strongly due to its topology: there is no way around the defect. To what extend the one-dimensional picture stays a good basis for the description of real materials even if the chains are disturbed by in-chain impurities is an interesting question which is addressed in this work. For this purpose, Cu Nuclear Magnetic Resonance (NMR) measurements on the cuprate spin chain compounds SrCuO2 and Sr2CuO3 intentionally doped with nickel (Ni), zinc (Zn) and palladium (Pd) are presented. These materials are well known to be among the best realizations of the S=1/2 aHC model and their large exchange coupling constants allow the investigation of the low-energy dynamics within experimentally easily feasible temperatures. NMR provides the unique ability to study the static and dynamic magnetic properties of the spin chains locally which is important since randomly placed impurities break the translational invariance. Because copper is the magnetically active ion in those materials and the copper nuclear spin is most directly coupled to its electron spin, the NMR measurements have been performed on the copper site. The measurements show in all cases that there are changes in the results of these measurements as compared to the pure compounds which indicate the opening of gaps in the excitation spectra of the spin chains and the emergence of oscillations of the local susceptibility close to the impurities. These experimental observations are compared to theoretical predictions to clarify if and to what extend the already proposed model for these doped systems---the finite spin chain---is suitable to predict the behavior of real materials. Thereby, each impurity shows peculiarities. While Zn and Pd are know to be spin 0 impurities, it is not clear if Ni carries spin 1. To shed some light on this issue is another scope of this work. For Zn impurities, there are indications that they avoid to occupy copper sites, other than in the layered cuprate compounds. Also this matter is considered. info:eu-repo/classification/ddc/530 ddc:530
340	Density functional study of the electronic and magnetic properties of selected transition metal complexes Martin, Claudia 29 November 2013 (has links) Die vorliegende Promotionsarbeit “Density functional study of the electronic and magnetic properties of selected transition metal complexes” beschäftigt sich mit dem Zusammenhang zwischen strukturellen Merkmalen sowie elektronischen und magnetischen Eigenschaften von Einzelmolekül-Magneten. Im Wesentlichen konnte dabei gezeigt werden, dass die magnetischen Eigenschaften sowohl von strukturellen Merkmalen als auch von den elektronischen Eigenschaften bestimmt werden. Des Weiteren ergab sich, dass verschiedene Kenngrößen der magnetischen Eigenschaften (im speziellen der magnetische Grundzustand S sowie die magnetische Anisotropie D) miteinander korreliert sind. Dies ist im Besonderen für eine mögliche Anwendung von Einzelmolekül-Magneten im Bereich der Datenspeicherung von Bedeutung. info:eu-repo/classification/ddc/530 ddc:530 info:eu-repo/classification/ddc/538 ddc:538

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