Contribuição da técnica quantitativa de difusão por ressonância magnética na avaliação dos tumores adrenocorticais em crianças e carcinomas adrenocorticais em adultos / Contribution of quantitative technique in diffusion magnetic resonance imaging to the evaluation of adrenocortical tumors in children and adrenocortical carcinomas in adults

Andréa Farias de Melo Leite

15 July 2016

Os tumores adrenocorticais (TAC) são lesões que se originam do córtex da glândula suprarrenal e ocorrem tanto em crianças quanto em adultos. Técnicas de imagem que forneçam informações quantitativas relativas à citoarquitetura desses tumores ainda não foram estabelecidas neste contexto. A difusão por ressonância magnética (DWI) é uma técnica que pode fornecer informações quantitativas dos tecidos através do valor do coeficiente aparente de difusão (ADC). O papel do ADC nas lesões tumorais adrenais tem sido estudado, porém sua relação com critérios histopatológicos e prognósticos ainda não foram descritos. O objetivo geral deste estudo é investigar a utilidade dos métodos de imagem realizando um paralelo na correlação clínica, histopatológica entre TAC em crianças e carcinoma adrenocortical (CAC) nos adultos. Os objetivos específicos são correlacionar os valores do ADC tumoral a escores histopatológicos, celularidade e Ki-67 tanto em crianças quanto em adultos, avaliando ainda a concordância entre-observadores nas medidas dos ADCs em pacientes e em controles. Este trabalho será baseado em três artigos, nos quais mostrarão a metodologia, resultados e discussões relativos à cada uma das etapas. O primeiro artigo, \"Neoplasias adrenocorticais em adultos e crianças: apresentações distintas. Revisão dos aspectos clínicos, patológicos e do diagnostico por imagem\" trata-se de uma revisão da literatura e análise comparativa sobre as características clínicas, histopatológicas e por imagem dos TAC em crianças e adultos. O segundo artigo, Estudo dos parâmetros derivados do histograma do coeficiente aparente de difusão obtido pela técnica de difusão por RM na avaliação de prognóstico do carcinoma adrenocortical\", estudou CAC em adultos e buscou associar o ADC com os critérios clínicos, histopatológicos, celularidade e o Ki-67. No terceiro artigo \"Tumores Adrenocorticais Pediátricos valores de ADC na diferenciação entre adenomas e carcinomas e sua relação com critérios histopatológicos\" foi realizado em crianças com TAC buscando uma tentativa de diferenciação pelo ADC entre tumores com comportamentos benignos e malignos seja clínica ou histopatologicamente. Os valores de ADCmínimo (ADCmín) e máximo nos adultos, demonstraram ser úteis para diferenciar controles de pacientes com CAC. O ADCmín nos pacientes adultos com CACs evidenciaram que podem ser utilizados para inferir celularidade tumoral. Este estudo ainda reafirmou em adultos com CAC, os valores do Ki-67 como marcador prognóstico e demonstrou uma boa relação da celularidade com o sistema de Weiss. Já nas crianças, houve correlação inversa de alguns dos valores do ADCs com o peso tumoral. Os valores de ADCs não demonstraram relação com a celularidade e com o comportamento clínico e histopatológico dos pacientes, reafirmando, portanto, a peculiaridade dos TAC pediátricos em relação à população adulta. Apesar de neste estudo, os valores de ADCs terem sido mais baixos nos TACs e em CACs que os valores na glândula saudável e de nos adultos ter havido correlação do ADCmín e a celularidade tumoral e em criança com o peso lesional, estas alterações não foram suficientes para predizer objetivamente, critérios preditores de agressividade tumoral ou de prognóstico, podendo eventualmente no futuro, representar uma ferramenta para tal. / Adrenocortical tumors (TAC) are lesions that originate from the cortex of the adrenal gland and occur in children and also in adults. Imaging techniques that provide quantitative information about the citoarchitecture of these tumors have not been established in this context yet. The diffusion magnetic resonance imaging (DWI) is a technique that can provide quantitative information of the tissues by the value of the apparent diffusion coefficient (ADC). The role of the ADC in adrenal tumors has been studied, however its relationship with histopathological prognostic criteria has not been described yet. The aim of this study is to investigate the usefulness of imaging methods performing a parallel in the clinical and histopathologic correlation of the TACs in children and adrenocortical carcinoma (CAC) in adults. The specific objectives are to correlate the values of tumor ADC histopathologic scores, cellularity and Ki-67 in children and also in adults, still evaluating the agreement between observers in the measurements of ADCs in patients and controls. This study will be based on three articles in which show the methodology, results and discussions relating to each of the steps. The first paper, \"Adrenocortical neoplasms in adults and children: different presentations. Review of clinical, pathological and diagnostic imaging \" is about a literature review and comparative analysis of the clinical, histopathological and imaging of CT in children and adults. The second article, \"Utility of the parameters derived from the histogram of the apparent diffusion coefficient obtained by MR diffusion technique in the assessment of adrenocortical carcinoma prognosis,\" studied CAC in adults and sought to link the ADC with the clinical, histopathological, cellularity and Ki-67 of these lesions. In the third paper \"Pediatric adrenocortical tumors: ADC values to differentiate between adenomas and carcinomas and its correlation with histopathological criteria\" was conducted in children with TAC seeking an attempt to differentiate between the ADC tumors with benign and malignant behavior either in clinical or histopathological prism. The ADCmín and max values in adults proven to be useful to differentiate patients from controls. The ADC min in adult patients with CACs showed that it could be used to infer tumor cellularity. This study also reaffirmed in adults with CAC, the values of Ki-67 as a prognostic marker and demonstrated a good relationship with Weiss score and cellularity. Also in children, there was a significant inverse correlation of some of the ADCs values with tumor weight. Some ADCs values showed no relationship to the cellularity and the clinical and histopathological behavior of patients, re-affirming therefore the peculiarity of pediatric TAC relation to the adult population. Despite this study, the ADCs values were lower in TACs and CACs than the values in healthy gland and also that in adults have been correlation the ADCmín and tumor cellularity and in children with weight, these changes were not enough to predict objectively, criteria predictive of tumor aggressiveness and prognosis possibly could in the future represent a tool for such.

Carcinoma adrenocortical

Glândulas suprarrenais

Imagem por ressonância magnética

Neoplasia adrenocortical

Adrenal cortex neoplasms

Adrenal glands

Adrenocortical carcinoma

Diffusion MRI

Diffusion resonance magnetic imaging

Magnetic resonance imaging

Intervention orthophonique et neurobiologie du cerveau : apports de la neuroimagerie à la prise en charge de l’aphasie chronique

Marcotte, Karine

08 1900

L’aphasie est un trouble acquis du langage entraînant des problèmes de communication pouvant toucher la compréhension et/ou l’expression. Lorsque l’aphasie fait suite à un accident vasculaire cérébral, une régression des déficits communicatifs s'observe initialement, mais elle peut demeurer sévère pour certains et est considérée chronique après un an. Par ailleurs, l’aphasie peut aussi être observée dans l’aphasie progressive primaire, une maladie dégénérative affectant uniquement le langage dans les premières années. Un nombre grandissant d’études s’intéressent à l’impact de la thérapie dans l’aphasie chronique et ont démontré des améliorations langagières après plusieurs années. L’hémisphère gauche semble avoir un rôle crucial et est associé à de meilleures améliorations langagières, mais la compréhension des mécanismes de plasticité cérébrale est encore embryonnaire. Or, l’efficacité de la thérapie dans l’aphasie progressive primaire est peu étudiée. À l’aide de la résonance magnétique fonctionnelle, le but des présentes études consiste à examiner les mécanismes de plasticité cérébrale induits par la thérapie Semantic Feature Analysis auprès de dix personnes souffrant d’aphasie chronique et d’une personne souffrant d’aphasie progressive primaire. Les résultats suggèrent que le cerveau peut se réorganiser plusieurs années après une lésion cérébrale ainsi que dans une maladie dégénérative. Au niveau individuel, une meilleure amélioration langagière est associée au recrutement de l’hémisphère gauche ainsi qu’une concentration des activations. Les analyses de groupe mettent en évidence le recrutement du lobule pariétal inférieur gauche, alors que l’activation du gyrus précentral gauche prédit l’amélioration suite à la thérapie. D’autre part, les analyses de connectivité fonctionnelle ont permis d’identifier pour la première fois le réseau par défaut dans l’aphasie. Suite à la thérapie, l’intégration de ce réseau bien connu est comparable à celle des contrôles et les analyses de corrélation suggèrent que l’intégration du réseau par défaut a une valeur prédictive d’amélioration. Donc, les résultats de ces études appuient l’idée que l’hémisphère gauche a un rôle prépondérant dans la récupération de l’aphasie et fournissent des données probantes sur la neuroplasticité induite par une thérapie spécifique du langage dans l’aphasie. De plus, l’identification d’aires clés et de réseaux guideront de futures recherches afin d’éventuellement maximiser la récupération de l’aphasie et permettre de mieux prédire le pronostic. / Aphasia is an acquired language impairment leading to communication disorders which may affect comprehension and/or expression. When aphasia follows a stroke, major recovery of the communicative deficits is initially observed after the lesion, but for some the aphasia may remain severe and is considered to be chronic after a year. Furthermore aphasia can be observed in primary progressive aphasia, a degenerative disease only affecting language in the early years. The impact of therapy in chronic aphasia is the subject of growing literature in recent years and has shown language improvements after several years of therapy. The left hemisphere seems to have a crucial role and is associated with greater language improvements but our understanding of brain plasticity mechanisms is still lacking. In primary progressive aphasia, few studies have examined therapy effectiveness. Using functional magnetic resonance imaging, the aim of these studies was to examine therapy-induced brain plasticity mechanisms following Semantic Feature Analysis in ten participants suffering from chronic aphasia and one participant with primary progressive aphasia. The results suggest that brain reorganization is possible several years after injury and in degenerative disease. At the individual level, greater language improvement is associated with the recruitment of the left hemisphere and less activated areas. Group analysis shows the recruitment of left inferior parietal lobule, whereas the activation of left precentral gyrus predicts improved response to therapy. Functional connectivity analysis allowed for the first time the identification of the default-mode network in aphasia. Following therapy, the integration of this well-known network is comparable to that of the controls and the correlation analysis suggests that the default-mode network integration has a predictive value for improvement. Therefore, the results of these studies support the idea that the left hemisphere has a major role in the recovery of aphasia and provide evidence on therapy-induced neuroplasticity in aphasia. In addition, the identification of key areas and networks will guide future research in order to possibly maximize the recovery of aphasia and to better predict the prognosis.

Aphasie chronique

Aphasie progressive primaire

Thérapie langagière

Plasticité cérébrale

Neuroplasticité

Connectivité fonctionnelle

Réseau par défaut

Chronic aphasia

Primary progressive aphasia

Language therapy

Brain plasticity

Neuroplasticity

Functional resonance magnetic imaging

Functional connectivity

Default-mode network

Imaging Spin Textures on Curved Magnetic Surfaces

Streubel, Robert

08 September 2015

Gegenwärtige Bestrebungen materialwissenschaftlicher Forschung beschäftigen sich unter anderem mit der Überführung zweidimensionaler Elemente elektronischer, optischer, plasmonischer oder magnetischer Funktionalität in den dreidimensionalen (3D) Raum. Dieser Ansatz vermag mittels Krümmung und struktureller Topologie bereits vorhandene Eigenschaften abzuändern beziehungsweise neue Funktionalitäten bereitzustellen. Vor allem Vektoreigenschaften wie die Magnetisierung kondensierter Materie lassen sich aufgrund der Brechung der Inversionssymmetrie in gekrümmten Flächen stark beeinflussen. Neben der Entwicklung diverser Vorgänge zur Herstellung 3D magnetischer Gegenstände sind geeignete Untersuchungsmethoden wie beispielsweise tomografische Abbildungen der Magnetisierung von Nöten, die maßgeblich die physikalischen Eigenschaften bestimmen. Die vorliegende Dissertationsschrift befasst sich mit der Abbildung von magnetischen Domänen in 3D gekrümmten Dünnschichten beruhend auf dem Effekt des zirkularen magnetischen Röntgendichroismus (XMCD). Die in diesem Zusammenhang entwickelte magnetische Röntgentomografie (MXT) basierend auf weicher Röntgenmikroskopie stellt eine zu Elektronenholografie und Neutronentomografie komplementäre Methodik dar, welche großes Anwendungspotential in der elementspezifischen Untersuchung magnetischer gekrümmter Flächen mit örtlicher Auflösung im Nanometerbereich aufweist. Die Schwierigkeit der Interpretation von Abbildungen magnetischer Strukturen in gekrümmten Flächen rührt von der Dreidimensionalität und der Vektoreigenschaft der Magnetisierung her. Die hierzu notwendigen Kenntnisse sind anhand von zwei topologisch verschiedenen Flächen in Form hemisphärischer Kappen und hohler Zylinder erschlossen worden. Die praktische Anwendung von MXT ist abschließend anhand der Rekonstruktion magnetischer Domänen in aufgerollten Dünnschichten mit zylindrischer Form verdeutlicht. / One of the foci of modern materials sciences is set on expanding conventional two-dimensional electronic, photonic, plasmonic and magnetic devices into the third dimension. This approach provides means to modify conventional or to launch novel functionalities by tailoring curvature and three-dimensional (3D) shape. The degree of effect is particularly high for vector properties like the magnetization due to an emergent inversion symmetry breaking. Aside from capabilities to design and synthesize 3D magnetic architectures, proper characterization methods, such as magnetic tomographic imaging techniques, need to be developed to obtain a thorough understanding of the system’s response under external stimuli. The main objective of this thesis is to develop a visualization technique that provides nanometer spatial resolution to image the peculiarities of the magnetic domain patterns on extended 3D curved surfaces. The proposed and realized concept of magnetic soft X-ray tomography (MXT), based on the X-ray magnetic circular dichroism (XMCD) effect with soft X-ray microscopies, has the potential to become a powerful tool to investigate element specifically an entirely new class of 3D magnetic objects with virtually any shape and magnetization. Imaging curved surfaces meets the challenge of three-dimensionality and requires a profound understanding of the recorded XMCD contrast. These experiences are gained by visualizing magnetic domain patterns on two distinct 3D curved surfaces, namely magnetic cap structures and rolled-up magnetic nanomembranes with cylindrical shape. The capability of MXT is demonstrated by reconstructing the magnetic domain patterns on 3D curved surfaces resembling hollow cylindrical objects.

3D gekrümmte Oberflächen

Magnetismus

magnetische Abbildung

XMCD

XPEEM

MTXM

magnetische weiche Röntgenmikroskopie

Rolled-up Nanotech

3D curved surfaces

magnetism

magnetic imaging

XMCD

XPEEM

MTXM

magnetic soft X-ray tomography

rolled-up nanotech

strain engineering

ddc:538

Magnetismus

Tomografie

Röntgenmikroskopie

Magnetischer Röntgenzirkulardichroismus

Nanotechnologie

Intervention orthophonique et neurobiologie du cerveau : apports de la neuroimagerie à la prise en charge de l’aphasie chronique

Marcotte, Karine

08 1900

L’aphasie est un trouble acquis du langage entraînant des problèmes de communication pouvant toucher la compréhension et/ou l’expression. Lorsque l’aphasie fait suite à un accident vasculaire cérébral, une régression des déficits communicatifs s'observe initialement, mais elle peut demeurer sévère pour certains et est considérée chronique après un an. Par ailleurs, l’aphasie peut aussi être observée dans l’aphasie progressive primaire, une maladie dégénérative affectant uniquement le langage dans les premières années. Un nombre grandissant d’études s’intéressent à l’impact de la thérapie dans l’aphasie chronique et ont démontré des améliorations langagières après plusieurs années. L’hémisphère gauche semble avoir un rôle crucial et est associé à de meilleures améliorations langagières, mais la compréhension des mécanismes de plasticité cérébrale est encore embryonnaire. Or, l’efficacité de la thérapie dans l’aphasie progressive primaire est peu étudiée. À l’aide de la résonance magnétique fonctionnelle, le but des présentes études consiste à examiner les mécanismes de plasticité cérébrale induits par la thérapie Semantic Feature Analysis auprès de dix personnes souffrant d’aphasie chronique et d’une personne souffrant d’aphasie progressive primaire. Les résultats suggèrent que le cerveau peut se réorganiser plusieurs années après une lésion cérébrale ainsi que dans une maladie dégénérative. Au niveau individuel, une meilleure amélioration langagière est associée au recrutement de l’hémisphère gauche ainsi qu’une concentration des activations. Les analyses de groupe mettent en évidence le recrutement du lobule pariétal inférieur gauche, alors que l’activation du gyrus précentral gauche prédit l’amélioration suite à la thérapie. D’autre part, les analyses de connectivité fonctionnelle ont permis d’identifier pour la première fois le réseau par défaut dans l’aphasie. Suite à la thérapie, l’intégration de ce réseau bien connu est comparable à celle des contrôles et les analyses de corrélation suggèrent que l’intégration du réseau par défaut a une valeur prédictive d’amélioration. Donc, les résultats de ces études appuient l’idée que l’hémisphère gauche a un rôle prépondérant dans la récupération de l’aphasie et fournissent des données probantes sur la neuroplasticité induite par une thérapie spécifique du langage dans l’aphasie. De plus, l’identification d’aires clés et de réseaux guideront de futures recherches afin d’éventuellement maximiser la récupération de l’aphasie et permettre de mieux prédire le pronostic. / Aphasia is an acquired language impairment leading to communication disorders which may affect comprehension and/or expression. When aphasia follows a stroke, major recovery of the communicative deficits is initially observed after the lesion, but for some the aphasia may remain severe and is considered to be chronic after a year. Furthermore aphasia can be observed in primary progressive aphasia, a degenerative disease only affecting language in the early years. The impact of therapy in chronic aphasia is the subject of growing literature in recent years and has shown language improvements after several years of therapy. The left hemisphere seems to have a crucial role and is associated with greater language improvements but our understanding of brain plasticity mechanisms is still lacking. In primary progressive aphasia, few studies have examined therapy effectiveness. Using functional magnetic resonance imaging, the aim of these studies was to examine therapy-induced brain plasticity mechanisms following Semantic Feature Analysis in ten participants suffering from chronic aphasia and one participant with primary progressive aphasia. The results suggest that brain reorganization is possible several years after injury and in degenerative disease. At the individual level, greater language improvement is associated with the recruitment of the left hemisphere and less activated areas. Group analysis shows the recruitment of left inferior parietal lobule, whereas the activation of left precentral gyrus predicts improved response to therapy. Functional connectivity analysis allowed for the first time the identification of the default-mode network in aphasia. Following therapy, the integration of this well-known network is comparable to that of the controls and the correlation analysis suggests that the default-mode network integration has a predictive value for improvement. Therefore, the results of these studies support the idea that the left hemisphere has a major role in the recovery of aphasia and provide evidence on therapy-induced neuroplasticity in aphasia. In addition, the identification of key areas and networks will guide future research in order to possibly maximize the recovery of aphasia and to better predict the prognosis.

Aphasie chronique

Aphasie progressive primaire

Thérapie langagière

Plasticité cérébrale

Neuroplasticité

Connectivité fonctionnelle

Réseau par défaut

Chronic aphasia

Primary progressive aphasia

Language therapy

Brain plasticity

Neuroplasticity

Functional resonance magnetic imaging

Functional connectivity

Default-mode network

Imaging Spin Textures on Curved Magnetic Surfaces

Streubel, Robert

27 August 2015

Gegenwärtige Bestrebungen materialwissenschaftlicher Forschung beschäftigen sich unter anderem mit der Überführung zweidimensionaler Elemente elektronischer, optischer, plasmonischer oder magnetischer Funktionalität in den dreidimensionalen (3D) Raum. Dieser Ansatz vermag mittels Krümmung und struktureller Topologie bereits vorhandene Eigenschaften abzuändern beziehungsweise neue Funktionalitäten bereitzustellen. Vor allem Vektoreigenschaften wie die Magnetisierung kondensierter Materie lassen sich aufgrund der Brechung der Inversionssymmetrie in gekrümmten Flächen stark beeinflussen. Neben der Entwicklung diverser Vorgänge zur Herstellung 3D magnetischer Gegenstände sind geeignete Untersuchungsmethoden wie beispielsweise tomografische Abbildungen der Magnetisierung von Nöten, die maßgeblich die physikalischen Eigenschaften bestimmen. Die vorliegende Dissertationsschrift befasst sich mit der Abbildung von magnetischen Domänen in 3D gekrümmten Dünnschichten beruhend auf dem Effekt des zirkularen magnetischen Röntgendichroismus (XMCD). Die in diesem Zusammenhang entwickelte magnetische Röntgentomografie (MXT) basierend auf weicher Röntgenmikroskopie stellt eine zu Elektronenholografie und Neutronentomografie komplementäre Methodik dar, welche großes Anwendungspotential in der elementspezifischen Untersuchung magnetischer gekrümmter Flächen mit örtlicher Auflösung im Nanometerbereich aufweist. Die Schwierigkeit der Interpretation von Abbildungen magnetischer Strukturen in gekrümmten Flächen rührt von der Dreidimensionalität und der Vektoreigenschaft der Magnetisierung her. Die hierzu notwendigen Kenntnisse sind anhand von zwei topologisch verschiedenen Flächen in Form hemisphärischer Kappen und hohler Zylinder erschlossen worden. Die praktische Anwendung von MXT ist abschließend anhand der Rekonstruktion magnetischer Domänen in aufgerollten Dünnschichten mit zylindrischer Form verdeutlicht. / One of the foci of modern materials sciences is set on expanding conventional two-dimensional electronic, photonic, plasmonic and magnetic devices into the third dimension. This approach provides means to modify conventional or to launch novel functionalities by tailoring curvature and three-dimensional (3D) shape. The degree of effect is particularly high for vector properties like the magnetization due to an emergent inversion symmetry breaking. Aside from capabilities to design and synthesize 3D magnetic architectures, proper characterization methods, such as magnetic tomographic imaging techniques, need to be developed to obtain a thorough understanding of the system’s response under external stimuli. The main objective of this thesis is to develop a visualization technique that provides nanometer spatial resolution to image the peculiarities of the magnetic domain patterns on extended 3D curved surfaces. The proposed and realized concept of magnetic soft X-ray tomography (MXT), based on the X-ray magnetic circular dichroism (XMCD) effect with soft X-ray microscopies, has the potential to become a powerful tool to investigate element specifically an entirely new class of 3D magnetic objects with virtually any shape and magnetization. Imaging curved surfaces meets the challenge of three-dimensionality and requires a profound understanding of the recorded XMCD contrast. These experiences are gained by visualizing magnetic domain patterns on two distinct 3D curved surfaces, namely magnetic cap structures and rolled-up magnetic nanomembranes with cylindrical shape. The capability of MXT is demonstrated by reconstructing the magnetic domain patterns on 3D curved surfaces resembling hollow cylindrical objects.

info:eu-repo/classification/ddc/538

ddc:538

A Comprehensive Study of Magnetic and Magnetotransport Properties of Complex Ferromagnetic/Antiferromagnetic- IrMn-Based Heterostructures

Arekapudi, Sri Sai Phani Kanth

21 June 2023

Manipulation of ferromagnetic (FM) spins (and spin textures) using an antiferromagnet (AFM) as an active element in exchange coupled AFM/FM heterostructures is a promising branch of spintronics. Recent ground-breaking experimental demonstrations, such as electrical manipulation of the interfacial exchange coupling and FM spins, as well as ultrafast control of the interfacial exchange-coupling torque in AFM/FM heterostructures, have paved the way towards ultrafast spintronic devices for data storage and neuromorphic computing device applications.[5,6] To achieve electrical manipulation of FM spins, AFMs offer an efficient alternative to passive heavy metal electrodes (e.g., Pt, Pd, W, and Ta) for converting charge current to pure spin current. However, AFM thin films are often integrated into complex heterostructured thin film architectures resulting in chemical, structural, and magnetic disorder. The structural and magnetic disorder in AFM/FM-based spintronic devices can lead to highly undesirable properties, namely thermal dependence of the AFM anisotropy energy barrier, fluctuations in the magnetoresistance, non-linear operation, interfacial spin memory loss, extrinsic contributions to the effective magnetic damping in the adjacent FM, decrease in the effective spin Hall angle, atypical magnetotransport phenomena and distorted interfacial spin structure. Therefore, controlling the magnetic order down to the nanoscale in exchange coupled AFM/FM-based heterostructures is of fundamental importance. However, the impact of fractional variation in the magnetic order at the nanoscale on the magnetization reversal, magnetization dynamics, interfacial spin transport, and the interfacial domain structure of AFM/FM-based heterostructures remains a critical barrier. To address the aforementioned challenges, we conduct a comprehensive experimental investigation of chemical, structural, magnetization reversal (integral and element-specific), magnetization dynamics, and magnetotransport properties, combined with high-resolution magnetic imaging of the exchange coupled Ni3Fe/IrMn3-based heterostructures. Initially, we study the chemical, structural, electrical, and magnetic properties of epitaxially textured MgO(001)/IrMn3(0-35 nm)/Ni3Fe(15 nm)/Al2O3(2.0 nm) heterostructures. We reveal the impact of magnetic field annealing on the interdiffusion at the IrMn3/Ni3Fe interface, electrical resistivity, and magnetic properties of the heterostructures. We further present an AFM IrMn3 film thickness dependence of the exchange bias field, coercive field, magnetization reversal, and magnetization dynamics of the exchange coupled heterostructures. These experiments reveal a strong correlation between the chemical, structural and magnetic properties of the IrMn3-based heterostructures. We find a significant decrease in the spin-mixing conductance of the chemically-disordered IrMn3/Ni3Fe interface compared to the chemically-ordered counterpart. Independent of the AFM film thickness, we unveil that thermally disordered AFM grains exist in all the samples (measured up to 35-nm-thick IrMn3 films). We develop an iterative magnetic field cooling procedure to systematically manipulate the orientation of the thermally disordered and reversible AFM moments and thus, achieve tunable magnetic, and magnetotransport properties of exchange coupled AFM-based heterostructures. Subsequently, we investigate the impact of fractional variation in the AFM order on the magnetization reversal and magnetotransport properties of the epitaxially textured ɣ-phase IrMn3/Ni3Fe, Ni3Fe/IrMn3/Ni3Fe, and Ni3Fe/IrMn3/Ni3Fe/CoO heterostructures. We probe the element-specific (FM: Ni and Co, and AFM: Mn) magnetization reversal properties of the exchange coupled Ni3Fe/IrMn3/Ni3Fe/Co/CoO heterostructures in various magnetic field cooled states. We present a detailed procedure for separating the spin and orbital moment contributions for magnetic elements using the XMCD sum rule. We address whether Mauri-type domain walls can develop at the (polycrystalline) exchange coupled Ni3Fe/IrMn3/Ni3Fe interfaces. We further study the impact of magnetic field cooling on the AFM Mn (near L2,3-edges) X-ray absorption spectra. Finally, we employ a combination of in-field high-resolution magnetic force microscopy, magnetooptical Kerr effect magnetometry with micro-focused beam, and micromagnetic simulations to study the magnetic vortex structures in exchange coupled FM/AFM and AFM/FM/AFM disk structures. We examine the magnetic vortex annihilation mechanism mediated by the emergence and subsequent annihilation of the vortex-antivortex (V-AV) pairs in simple FM and exchange coupled FM/AFM as well as AFM/FM/AFM disk structures. We image the distorted magnetic vortex structures in exchange coupled FM/AFM disks proposed by Gilbert and coworkers. We further emphasize crucial magnetic vortex properties, such as handedness, effective vortex core radius, core displacement at remanence, nucleation field, annihilation field, and exchange bias field. Our experimental inquiry offers profound insight into the interfacial exchange interaction, magnetization reversal, magnetization dynamics, and interfacial spin transport of the AFM/FM-based heterostructures. Moreover, our results pave the way towards nanoscale control of the magnetic properties in AFM-based heterostructures and point towards future opportunities in the field of AFM spintronic devices.:1. Introduction 2. Magnetic Interactions and Exchange Bias Effect 3. Materials 4. Experimental Methods 5. Structural, Electrical, and Magnetization Reversal Properties of Epitaxially Textured ɣ-IrMn3/ Ni3Fe Heterostructures 6. Magnetization Dynamics of MgO(001)/IrMn3/Ni3Fe Heterostructures in the Frequency Domain 7. Tunable Magnetic and Magnetotransport Properties of MgO(001)/Ni3Fe/IrMn3/Ni3Fe/ CoO/Pt Heterostructures 8. Element-Specific XMCD Study of the Exchange Couple Ni3Fe/IrMn3/Ni3Fe/Co/CoO Heterostructures 9. Distorted Vortex Structure and Magnetic Vortex Reversal Processes in Exchange Coupled Ni3Fe/IrMn3 Disk Structures 10. Conclusions and Outlook Addendum Acronyms Symbols Publication List Author Information Acknowledgments Statement of Authorship

info:eu-repo/classification/ddc/548.85

ddc:548.85

info:eu-repo/classification/ddc/530.4175

ddc:530.4175

info:eu-repo/classification/ddc/538.44

ddc:538.44

info:eu-repo/classification/ddc/548.83

ddc:548.83