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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Magnetic ordering in systems of reduced dimensionality

Purdie, Stuart January 2005 (has links)
The magnetic behaviour of thin films of (111) FCC structures and (0001) corundum structured materials were studied by the mean field analysis and some Monte Carlo simulation. These models were conditioned on a mapping from first principles calculations to the Ising model. The effect of the suggested octopolar reconstruction for the polar (111) surfaces of FCC was also examined.
12

The effect of a metal film on the surface boundary conditions of yttrium iron garnet thin films /

Dean, Barbara Ann January 1980 (has links)
No description available.
13

A study of superconductivity in single crystals and thin films using muon-spin rotation and neutron scattering

Heron, David Owen Goudie January 2009 (has links)
The archetypal high temperature superconductor Bi₂Sr₂CaCu₂O[subscript[8+δ]] has been extensively investigated. However, until now, little has been known about the behaviour of the magnetic vortices inside the Vortex Glass and liquid state. µSR measurements have shown a negative skewness for the field probability distributions in these regimes. Such a negative skewness has only recently been explained as being a direct consequence of three-body correlations between vortices in a similar layered superconductor. With a new understanding and knowledge of the physics of these systems, it is instructive to re-visit the superconductor Bi₂Sr₂CaCu₂O[subscript[8+δ]] to explain the evolution of these three-body correlations occurring here. Comparing this with the ion-irradiated superconductors (of the same Bi₂Sr₂CaCu₂O[subscript[8+δ]] material), allows one to observe how three-body correlations between vortices evolve differently to that in the pristine material. Moreover, in the region of the macroscopic irreversibility line, entropically driven disorder exists below the matching field B[subscript[ϕ]] , whilst there is the appearance of relatively straight vortex lines at fields above B[subscript[ϕ]] . Such phenomena suggest a significant di fference in the evolution of three-body correlations compared with the unirradiated material. There has been much work conducted on the interplay between superconductivity and magnetism in materials of reduced dimensions. Work presented here on the ferromagnet/superconductor trilayer system (Permalloy/Nb/Permalloy) has shown a novel magnetic profile at the interface between the ferromagnetic and superconducting boundary, where, contrary to what is expected, the magnetism appears to be significantly suppressed at the interface before increasing towards the centre of the Nb layer.
14

Terbium iron cobalt diffusion barrier studies

Taylor, Anthony Park, 1963- January 1988 (has links)
Thin films (5nm ± 2nm thick) of ZrO2, Al2O3, TiO2, Sm, Gd, Zr, Ni, and Pt were deposited onto TbFeCo films (100nm ± 20nm thick) on silicon and graphite substrates and analyzed with XPS as prospective candidates for TbFeCo diffusion barriers. Metals were chosen primarily according to electronegativity. Samples were typically heated to 272°C in UHV for 20 hours to enhance diffusion. Experiments with the metals were performed in a more consistent manner than with the oxides. The Sm, Gd, and Zr were reactively oxidized during the deposition. The Sm/Sm-oxide and Gd/Gd-oxide appeared to be favorable candidates for TbFeCo diffusion barriers. TbFeCo was not detected near the surface before or after heating the samples to 272°C for 20 hours and depth profiles indicated oxygen contamination decreased steadily as the barrier/TbFeCo interface was approached. For the other materials examined, either the oxides were reduced (at least partially) during heating to 272°C (381°C for Al₂O₃) or diffusion of TbFeCo was detected after heating, indicating that they would not be favorable candidates for TbFeCo diffusion barriers.
15

Magneto-optical studies of field-driven propagation dynamics of domain walls in permalloy nanowires and scaling of magnetic energy losses in permalloy films and microstructures

Nistor, Corneliu 28 August 2008 (has links)
Not available / text
16

The chemical and magnetic structures of rare-earth superlattices and thin films

Swaddling, Paul January 1994 (has links)
No description available.
17

Magnetically actuated peel test for thin film interfacial fracture and fatigue characterization

Ostrowicki, Gregory Thomas 07 November 2012 (has links)
Delamination along thin film interfaces is a prevalent failure mechanism in microelectronic, photonic, MEMS, and other engineering applications. Current interfacial fracture test techniques specific to thin films are limited by either sophisticated mechanical fixturing, physical contact near the crack tip, non-representative test specimens, or complicated stress fields. Moreover, these techniques are generally not suitable for investigating fatigue crack propagation under cyclical loading. A fixtureless and noncontact experimental test technique is thus proposed and implemented to study interfacial fracture for thin film systems. The proposed test incorporates permanent magnets surface mounted onto micro-fabricated released thin film structures. An applied external magnetic field induces noncontact monotonic or fatigue loading to initiate delamination along the interface between the thin film and underlying substrate. Characterization of the film deflection, peel angle, and delamination propagation is accomplished through in situ optical techniques. Analytical and finite-element models are used to extract fracture parameters from the experimental data using thin-film peel mechanics. The developed interfacial fracture test has been demonstrated for Cu thin films on a SiO₂/Si substrate.
18

Ressonância magnética eletrônica em materiais heterogêneos : Gd5(SixGe1-x)4, Co-SiO2 e Co-Cu / Electron spin resonance in heterogeneous materials: Gd5(SixGe1-x)4 , Co-SiO2 and Co-Cu

Pires, Manoel Jose Mendes 02 March 2006 (has links)
Orientador: Edson Correa da Silva / Tese (doutorado) - Universidade Estadual de Campinas. Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-05T10:58:19Z (GMT). No. of bitstreams: 1 Pires_ManoelJoseMendes_D.pdf: 2259890 bytes, checksum: 89a439052421ef20ca8be3fe8a8228b8 (MD5) Previous issue date: 2006 / Resumo: Estudamos materiais magnéticos heterogêneos por meio de várias técnicas experimentais mas tendo como técnica principal a ressonância magnética eletrônica (RME), tanto no regime ferromagnético quanto no paramagnético. Dois grupos de materiais foram investigados: compostos de Gd5(SixGe1-x)4 e filmes finos granulares de cobalto embebido em matrizes metálicas (cobre) e semicondutoras (dióxido de silício). Ambos são materiais de grande interesse tecnológico, sobretudo para aplicações em refrigeração magnética no primeiro caso e em dispositivos para gravação e leitura magnética no último. Medidas de RME em função da temperatura foram utilizadas para a caracterização de fases coexistentes em compostos de Gd5(S ixGe1-x)4 permitindo uma discriminação de seus comportamentos magnéticos individuais mais clara do que pode ser obtido por técnicas de magnetometria. É apresentado um estudo detalhado do fator de separação espectroscópica no regime paramagnético que permite a determinação do parâmetro de troca entre os spins localizados e os elétrons de condução. E todos esses resultados são empregados para a análise do complexo comportamento magnético de toda essa família de compostos. Medidas de ressonância ferromagnética em função da orientação do campo magnético aplicado e em função da temperatura foram empregadas para a determinação das anisotropias magnéticas efetivas de filmes finos de Co10C u90 e de Co-SiO2de várias composições. Para estes últimos empregamos um modelo que considera explicitamente a anisotropia de forma dos aglomerados de Co e que prevê, a partir disto, um termo de anisotropia perpendicular adicional ao que advém da forma da amostra. A análise das linhas de ressonância permitiu ainda uma discussão a respeito das interações magnéticas entre os aglomerados e de como distintos conjuntos de partículas magnéticas contribuem para o comportamento magnético global das amostras / Abstract: We have studied heterogeneous materials by means of several experimental techniques but adopting electron spin resonance (ESR) as the main one, both in the paramagnetic and ferromagnetic regimes. Two sets of materials were investigated: Gd5(SixGe1-x)4 compounds and granular thin films of Co embedded into metallic (Cu) and semiconductor (SiO2) matrixes. There is a great interest on the technological applications of these materials, especially for magnetic refrigeration concerning the former and for magnetic recording and reading devices concerning the last set. ESR measurements as a function of temperature were used for a characterisation of the coexisting phases on Gd5(S ixGe1-x)4 compounds, which allowed a more clear discrimination of their individual behaviours than what can be obtained by magnetometry techniques. It is presented a detailed study of the spectroscopic splitting factor in the paramagnetic regime that allows a determination of the localised spin¿conduction electron exchange parameter. All these results are employed for a analysis of the complex magnetic behaviour of this family of compounds. Ferromagnetic resonance measurements as a function of the orientation of the applied magnetic field and also as a function of temperature have been employed for the determination of the effective magnetic anisotropies of Co10Cu90 and Co-SiO2 thin films of several compositions. For these last films we employed a model considering explicitly the shape anisotropy of the Co clusters, which leads to a perpendicular anisotropy term additional to the one coming from the sample shape. Furthermore, the analysis of the resonance lines allowed a discussion about the magnetic interactions between the clusters and also about the manner as different sets of magnetic particles contribute to the whole magnetic behaviour of the samples / Doutorado / Física da Matéria Condensada / Doutor em Ciências
19

A Study of magnetic thin film corrosion mechanisms with the development of a novel on-line coupling technique and with Microstructural and Magnetic Cross-Sectional Profiling Techniques

Xu, Danhua 06 1900 (has links) (PDF)
Ph.D. / Electrical Engineering / A novel combinatory on-line technique coupling Electrochemistry (EC) with Inductively Coupled Plasma - Mass Spectrometry (ICP-MS) for in-situ quantitative determination of the corrosion mechanism in magnetic thin film structures has been developed in this research. Detailed construction of a system and a comprehensive methodology was described in this dissertation. Uniformly coated multi-layer magnetic thin film samples with multi-elemental alloys containing CoCrPtB and CrMo/Cr on the Ni/P substrate were used in this research for demonstrations. In-situ quantifications conducted in a series of experiments revealed that elemental dissolution was a predominant mechanism during corrosion courses of metallic thin film materials. At the microscopic scale, using results from depletion rate determination as well as cross-sectional analyses of microstructures and magnetic features, elemental passivity was observed to occur, depending on corrosion conditions. Without external influences, surface topographic measurements indicated that passive film could be produced at the macro-scale. The dependence of the dissolution rate of each metallic ion of alloys on electrolyte concentration, potential bias, scanning rate, and corrosion duration suggested that the most critical influential factor in corrosion mechanisms was epitaxial microstructures with strongly-oriented arrangements of grains and grain boundaries. Through the use of cross-sectional microstructural analysis, including high resolution TEM micrography, electron FFT diffraction, and nano-probe with EDS profiling, variations of elemental spatial distributions at grains and grain boundaries due to the corrosion phenomena were discovered, which provided a comprehensive understanding of occurrences of micro-corrosion in thin film structures. Because of the unique magnetic property of magnetic thin films, extensive studies of field strengths from the surface were also performed in this research. Important magnetization variations were noticed when cross-sectional images were obtained. Finally, models of corrosion kinetics in the multiple layers of magnetic thin film structures were proposed.
20

Propriedades magnéticas de filmes de ligas GD-Cr / Magnetic properties of Gd-Cr alloy films

Rouxinol, Francisco Paulo Marques, 1977- 29 August 2008 (has links)
Orientador: Mario Antonio Bica de Moraes / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-11T18:58:49Z (GMT). No. of bitstreams: 1 Rouxinol_FranciscoPauloMarques_D.pdf: 6433084 bytes, checksum: 84d703ca8da3620b077c3b1335c59965 (MD5) Previous issue date: 2008 / Resumo: Técnicas de condensação de vapor são úteis na preparação de ligas magnéticas cujos componentes têm pouca, o mesmo nenhuma, solubilidade em condições de equilíbrio Neste trabalho, uma dessas técnicas ¿ sputtering ¿ foi empregada para fabricar ligas metaestáveis de GdXCr1-X, cujas propriedades magnéticas foram investigadas em função da concentração de Gd, x. Difratometria de raios-X de baixo ângulo (GAXRD) e espectroscopia de retroespalhamento Rutherford foram utilizados para determinar a estrutura do filme e sua composição elementar, respectivamente. As análises de GAXRD mostraram que a estrutura da fase de Gd, é hcp quando x ³ 0,88; e amorfa quando 0,16 £ 0,76. Uma estrutura bcc , para a fase de Cr, foi observada nos difratogramas quando x < 0,16, e amorfa quando x ³ 0,16 Para investigar as propriedades magnéticas utilizamos um magnetometro SQUID e m PPMS. O primeiro foi utilizado para as medidas de momento magnético em função do campo estático e temperatura. O PPMS foi tilizado nas investigações de susceptibilidade-AC em função da freqüência de oscilação do campo, temperatura e campo estático. A complexa natureza magnética dos filmes de Gd-Cr foi observada através das isotermas MxH, que não apresentaram saturação em baixas temperaturas, nem comportamento linear em altas temperaturas. Pela análise dos dados magnéticos, observamos que as amostras admitem um comportamento ferromagnético para x ³ 0,5 e paramagnético para as outras concentrações de Gd. A temperatura de Curie (TC) apresenta um aumento monotônico de 170 para 290 K quando x aumenta de 0,5 para 1,0. A temperatura de Curie-Weiss (q C) mostra um aumento monotônico com x. A partir das isotermas MxH a 2 K, o momento de saturação foi calculado, sendo independente de x e aproximadamente constante com um valor médio de 7,3 µB. Medidas de susceptibilidade em campos estáticos e dinâmicos revelaram a existência de comportamentos de vidros magnéticos em todas as amostras abaixo da temperat ra de freezing (Tf). Observamos, nas ligas com altas concentrações de Gd, a presença de comportamentos ferromagnéticos e cluster-glass em baixas temperaturas. Concluímos que a interação de troca entre os átomos de Gd dentro dos clusters de Gd não é do tipo RKKY, e sim do tipo supertroca. O efeito magnetocalórico (MCE) foi investigado através da variação de entropia magnética ( D SM) em função da temperatura, para a remoção de um campo de 50 kOe Curva de D SMxT para as amostras com x < 0,2 apresentaram um formato típico de superferromagneto, consistente com a existência de clusters Gd nos filmes. Nas outras amostras em que o EMC foi analisado, a presença de clusters é observada pelo comportamento dessas curvas a baixa temperatura; a altas temperaturas o comportamento de D SM com T indica fortemente a presença de mais fases magnéticas no filme. O diagrama de fase baseado em TC e Tf, e sua dependência com x é apresentado / Abstract: Vapor condensation techniques are very useful for preparation of alloys whose components have no mutual solubility under equilibrium conditions In this work, one of these techniques ¿ sputtering ¿ has been used to fabricate metastable GdXCr1-X alloys whose magnetic properties were investigated as a function of the Gd concentration, x. Grazing incidence angle X-ray diffraction (GAXRD) and Rutherford backscattering spectroscopy were employed to characterize the film structure and elemental composition, respectively. The GAXRD measurements revealed, for the Gd fraction, a hcp structure for x ³ 0,88; for 0,16 £ x £ 0,76 the Gd fraction was amorphous. The existence of a bcc structure for x < 0,16 was observed in the diffractograms for the Cr phase, which was amorphous for x ³ 0,16. To investigate the magnetic properties, a SQUID magnetometer and a PPMS were used. The former was employed for magnetic moment measurements as a function of applied static field and temperature. The PPMS was used for ac-susceptibility determinations as a function of the frequency of the ac driving field, temperature, and applied static field. The complex magnetic nature of the Gd-Cr films was revealed from the MxH isotherms which did not show saturation even at the lowest temperatures, and did not exhibit a linear behavior at higher temperatures. Processing of the magnetic data has shown that the films exhibit a ferromagnetic behavior for x ³ 0,5 and paramagnetic one for all other Gd concentrations. The Curie temperature (TC) increased monotonically from 170 to 290 K as x increased from 0,5 to 1,0. A monotonical increase in the Curie-Weiss temperature ( q C ) with x was also observed for all films. From the extrapolated MxH isotherm at 2 K (saturation magnetization), the saturation moments were calculated and found to be nearly constant at about 7.3 µB. Both static and dynamic susceptibility measurements revealed the existence of a magnetic glassy behavior in all alloys, occurring below a freezing temperature Tf . For the higher concentration alloys, the ferromagnetic and the cluster glass state were observed at low temperatures. It was thus concluded that the exchange interactions within Gd atoms in the clusters were not of the RKKY but of the superexchange type. The magnetocaloric effect (MCE) was investigated from the magnetic entropy change ( DSM) as a function of temperature, for the removal of a 50 kOe field. Samples with x < 0,2 exhibited DSMxT curves whose shapes are typical of a superferromagnet, consistently with the existence of Gd clusters in the films. For all the other alloys whose MCE was investigated, the presence of clusters is manifested from the behavior of these curves at low temperatures; at higher temperatures, the evolution of DSM with T strongly indicated the presence of more than one magnetic phase in the alloys A magnetic phase diagram based on the Tf and Tc transition temperatures and their dependence on x is presented in this thesis / Doutorado / Física da Matéria Condensada / Doutor em Ciências

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