Mikrostruktur und elektrischer Transport von Sr_1-xCa_xRuO₃-Dünnfilmen – Der Weg zur Aufdeckung des Fermiflüssigkeitgrundzustandes in CaRuO₃ / Microstructur and electrical transport in Sr<sub1-x</sub>Ca_xRuO₃ thin films – The way of revelation of fermi liquid groundstate in CaRuO₃

Srba, Melanie

20 July 2018

No description available.

530

Physik (PPN621336750)

Dünnfilme

Shubnikov-de-Haas-Oszillationen

Hundsche Metalle

Fermiflüssigkeit

Nicht-Fermiflüssigkeit

thin films

Shubnikov-de Haas oscillation

Hunds metal

fermi liquid

non-fermi liquid

"Propriedades magnéticas e de spin em semicondutores do grupo III-V" / "Spin and magnetic properties of the III-V group semiconductors"

Duarte, Celso de Araujo

19 June 2006

Neste trabalho, apresentamos o resultado de nossas investigações em amostras de poços quânticos parabólicos (PQW) de AlGaAs crescidas em substratos de GaAs por MBE (Molecular Beam Epitaxy). Nossos estudos se concentram nas implicações da variação do fator g de Landé ao longo da estrutura dos PQW, a qual ocorre em virtude da dependência dessa grandeza com respeito ao conteúdo de Al na liga AlGaAs. Essas implicações são analisadas através de medidas de transporte eletrônico (medidas de Hall e do efeito Shubnikov-de Haas). As medidas de Subnikov-de Haas a temperaturas da ordem de dezenas a centenas de milikelvin com variação do ângulo de inclinação se mostram um eficiente método para a determinação do fator g. Distinguimos não só o fator g determinado pelas propriedades da liga, como também uma contribuição oriunda de efeitos de muitos corpos (contribuição de troca). Por outro lado, as medidas de Hall nos revelam um comportamento anômalo, que mostramos não ter origem no conhecido "efeito Hall anômalo" presente em materiais ferromagnéticos, nem em efeitos de ocupação de múltiplas sub-bandas. Atribuímos o fenômeno a um efeito "válvula de spin", conseqüente da variação espacial do fator g. Nossas observações nos permitem a idealização de um transistor "válvula de spin", prescindindo do emprego de materiais magnéticos. / We present the results of our investigations concerning MBE grown AlGaAs/GaAs parabolic quantum well (PQW) samples. We focused on the variation of the Landé g factor along the structure of the PQWs, which occur as a consquence of its dependence on the Al content on the alloy AlGaAs. The implications are studied by Hall and Shubnikov-de Haas measurements. Shubnikov-de Haas measurements at temperatures of the order of tenths to hundreds of milikelvin with variation of the tilt angle are shown to be an efficient method for the determination of the g factor. We could distinguish not only the alloy g factor, but its many body contribution (exchange contribution). On the other hand, Hall measurements exhibit an unusual behavior, which we prooved it has no relation neither to the well known "anomalous Hall effect", a characteristic of ferromagnetic materials, nor to a multi subband occupation effect. We atribute such behavior to a "spin valve effect", caused by the spatial variation of the g factor. Our observations allow us to idealize a "spin valve" transistor, without any ferromagnetic material in its structure.

AlGaAs

AlGaAs

efeito Hall

efeito Shubnikov-de Haas

fator g

g factor

Hall effect

parabolic quantum wells

poços quânticos parabólicos

semiconductors

semicondutores

Shubnikov-de Haas effect

spin valve

spintrônica

spintronics

válvula de spin

High magnetic field studies of 2DEG in graphene on SiC and at the LaAlO³/SrTiO³ interface / Étude des gaz d’électrons bidimensionnels sous champ magnétique intense dans du graphène sur SiC et à l’interface entre les oxydes complexes LaAlO³ et SrTiO³

Yang, Ming

16 April 2018

Cette thèse est dédiée à l'étude des propriétés de magnéto-transport des gaz d'électrons bidimensionnel, et plus spécifiquement du graphène sur carbure de silicium (G/SiC) ainsi qu’à l'interface entre les oxydes complexes LaAlO3 (LAO) et SrTiO3 (STO). Nous exploitons la génération d’un champ magnétique intense (jusqu'à 80 T) et les très basses températures (jusqu'à 40 mK) pour étudier les propriétés de transport quantique, qui sont évocatrices de la structure de bandes électroniques sous-jacente. Dans G/SiC, à la limite du régime d’effet Hall quantique, nous mesurons un plateau de Hall ultra-large quantifié à R=h/2e² couvrant un champ magnétique de plus de 70 T (de 7 T à 80 T). La résistance longitudinale est proche de zéro mais présente, de manière inattendue, de faibles oscillations périodiques avec l’inverse du champ magnétique. Sur la base d’observations microscopiques, ce gaz d’électrons 2D est modélisé par une matrice de graphène ayant une densité de porteurs de charge faible, parsemée d’ilots de taille micrométrique ayant un dopage plus important. Les simulations numériques des propriétés de transport reproduisent bien le plateau de Hall et la présence des oscillations. Au-delà du substrat de SiC qui agit comme un réservoir de charge et stabilise le facteur de remplissage à ν=2, un transfert de charge dépendant du champ magnétique entre les ilots chargés est responsable de la présence des oscillations de la magnétorésistance. Cette étude originale fournit de nouvelles perspectives pour des applications en métrologie. Les propriétés remarquables des gaz d’électrons 2D à l'interface entre les oxydes complexes LAO et STO sont aujourd'hui envisagées pour le développement de futurs dispositifs multifonctionnels. Toutefois, leurs propriétés électroniques sont encore mal connues et nécessitent des recherches plus approfondies. Dans ces systèmes, la magnétorésistance montre des oscillations de Shubnikov-de Haas (SdH) quasi-périodiques et un effet Hall linéaire jusqu'à 55 T à basse température. Nous observons une différence d’un ordre de grandeur entre la densité de porteurs extraite de la période des oscillations SdH et la pente de la résistance de Hall, impliquant la présence de nombreuses sous-bandes à l'énergie de Fermi. Les oscillations quasi-périodiques de la magnétorésistance sont bien reproduites par des simulations numériques prenant en compte l'effet Rashba à l'interface. De plus, à partir de l'évolution des oscillations SdH avec la tension de grille à très basse température (40mK), nous identifions les sous-bandes électroniques contribuant au transport, les orbitales atomiques dont elles dérivent, ainsi que leur localisation spatiale dans la profondeur de l'interface. / This thesis is devoted to the study of the magneto-transport properties of two dimensional electron gas (2DEG), and more specifically graphene on silicon carbide (G/SiC) as well as the interface between two complex oxides LaAlO3 / SrTiO3 (LAO/STO). We take advantage of very high magnetic field (up to 80 T) and very low temperature (down to 40 mK) to investigate the quantum transport properties, which are evocative of the underlying electronic band-structure. In G/SiC, close to the quantum Hall breakdown regime, we measure an ultra-broad quantum Hall plateau at R=h/2e² covering a magnetic field range of more than 70 T (from 7 T to 80 T). Accordingly, the longitudinal resistance is close to zero, but displays unexpected weak 1/B-periodic oscillations. Based on microscopic observations, this 2DEG is modeled as a low charge carrier density graphene matrix decorated by micrometers-size puddles with larger doping. Numerical simulations of the transport properties reproduce well both the broad Quantum Hall plateau and the presence of the oscillations. Besides the SiC substrate which acts as a charge reservoir and stabilizes the quantum Hall state at filling factor ν=2, a magnetic field dependent transfer of charges involving the puddles is responsible for the presence of the oscillating features. This original study provides new insights for resistance metrology purposes. The 2DEG arising at the interface between the complex oxides LAO and STO is nowadays envisioned for future multi-functional devices. Their electronic properties are still a matter of debate and require further investigations. The high field magneto-resistance of this 2DEG displays quasi-periodic Shubnikov-de Haas Oscillations (SdHO) and a linear Hall effect up to 55 T at low temperature. We observe a large discrepancy between the carrier density extracted from the period of the SdHO and the slope of the Hall resistance, which constitutes a strong evidence for the presence of many sub-bands crossing the Fermi energy. The quasi-periodic oscillations of the magneto-resistance are well reproduced by numerical simulations taking into account the strong Rashba effect at the interface. In addition, from the back-gate voltage evolution of the SdHO at sub-kelvin temperature, we identify the electronic sub-bands contributing to transport, the orbital symmetry from which they derive, as well as their spatial localization along the interface.

Gaz d’électrons bidimensionnels

Champ magnétique intense

Basse température

Magnéto-transport

Effet Hall Quantique

Oscillations de Shubnikov-de Haas

Structure de bande

2DEG

High magnetic field

Low temperature

Magneto transport

Quantum Hall effect

Shubnikov-de Haas oscillations

Band structure

530

Magneto-transporte no limite quântico em grafite e bismuto / Magnet transport in the quantum limit in graphite and bismuth

Medina Pantoja, Juan Carlos

11 August 2018

Orientadores: Iakov Veniaminovitch Kopelevitch, George Gershon Kleiman / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin / Made available in DSpace on 2018-08-11T13:15:15Z (GMT). No. of bitstreams: 1 MedinaPantoja_JuanCarlos_D.pdf: 3933664 bytes, checksum: 33f9dc730779c11f8c3d83b7ee0e56b4 (MD5) Previous issue date: 2007 / Resumo: Esta tese é o resultado da investigação das propriedades elétricas e magnéticas de dois semimetais: bismuto (Bi) policristalino romboédrico e grafite pirolítica altamente orientada (HOPG). Inicialmente nós discutimos o efeito Hall no limite quântico, que acontece em amostras de grafite HOPG com certo grau de desordem e onde a desordem é reduzida. Em particular, a resistência Hall R xy (B) exibe platôs em amostras HOPG menos desordenadas que possuem uma característica quase-bidimensional e uma forte anisotropia. Em amostras com maior desordem é observada a ocorrência de picos em lugar de platôs, evidenciando, experimentalmente, a predição de T. Ando. A condutância Hall reduzida Rxy (v) G0xy . fornece uma evidencia experimental para a coexistência de ambos os tipos de férmions de Dirac, normais e sem massa. Este resultado revela que o efeito Hall quântico inteiro e semi-inteiro tomam lugar simultaneamente na amostra HOPG. Nós encontramos as transições metal¿isolante (MIT) e isolante¿metal (IMT) induzidas por campo magnético em amostras de bismuto (Bi), quando o campo é aplicado paralelo ao eixo-c cristalográfico e observamos que estas transições têm enormes semelhanças com o MIT e IMT achados em HOPG e amostras monocristalinas Kish. As análises destes resultados experimentais sugerem que estas transições devem estar associadas à transição entre o estado metal de Bose (líquido não superfluido de pares de Cooper) e isolante excitônico. O aumento do momento diamagnético em bismuto e sua supressão próxima do campo crítico do MIT evidenciam a existência de correlações supercondutoras (metal de Bose) e excitônicas. Nós reportamos a observação experimental do efeito Hall anômalo Hall (AHE) em amostras de bismuto e de grafite HOPG. Os resultados indicam que este AHE pode ser compreendido, autoconsistentemente, através de modelos de pareamento excitônico induzido pelo campo magnético, possivelmente, devido ao surgimento de ferromagnetismo / Abstract: This thesis is the result of the investigation of the electric and magnetic properties of two semimetals: highly oriented pyrolitic graphite (HOPG) and polycrystalline bismuth (Bi), rhomboedral. Initially we discuss the Hall effect in the quantum limit that occurs in HOPG samples with a certain degree of disorder and with reduced disorder. In particular, the Hall resistance R xy (B) exhibits plateaus in less disordered HOPG samples, which present characteristic quasi-bidimensional and strongly anisotropic. In more disordered samples there occur peaks instead of plateaus, experimentally evidencing the T. Ando's prediction. The reduced Hall conductance G xy (v)/ G 0xy gives evidence experimental for the coexistence of both massless and massive Dirac fermions. This result reveals that the integer- and semi-integer QHE take place simultaneously in HOPG samples. We observed magnetic field induced metal-insulator (MIT) and insulator-metal (IMT) transitions, when this field is in the crystallographic c-axis direction, and observed that these transitions are very similar to the MIT and IMT observed in HOPG and monocrystalline samples (Kish). The analysis of the experimental results suggests that these transitions must be associated with the transition from the Bose metal state (a non superfluid liquid of Cooper pairs) to the excitonic insulator. The increase of the diamagnetic momentum in bismuth and its suppression in the vicinity of the critical field of the MIT evidences the existence of superconducting (Bose metal) and excitonic correlations. We report the experimental observation of the anomalous Hall effect (AHE) in HOPG samples. This AHE may be autoconsistently understood by means of magnetic field induced excitonic pairing models, possibly, due to the onset of ferromagnetism / Doutorado / Física da Matéria Condensada / Doutor em Ciências

Hall, Efeito quântico em grafite

Shubnikov-de Haas, Efeito

Hall, Efeito anômalo de

Transição de fase metal-isolante

Bismuto

Grafita

Quantum Hall effect in graphite

Shubnikov-de Haas effect

Anomalous Hall effect

Metal insulator phase transition

Bismuth

Graphite

"Propriedades magnéticas e de spin em semicondutores do grupo III-V" / "Spin and magnetic properties of the III-V group semiconductors"

Celso de Araujo Duarte

19 June 2006

Neste trabalho, apresentamos o resultado de nossas investigações em amostras de poços quânticos parabólicos (PQW) de AlGaAs crescidas em substratos de GaAs por MBE (Molecular Beam Epitaxy). Nossos estudos se concentram nas implicações da variação do fator g de Landé ao longo da estrutura dos PQW, a qual ocorre em virtude da dependência dessa grandeza com respeito ao conteúdo de Al na liga AlGaAs. Essas implicações são analisadas através de medidas de transporte eletrônico (medidas de Hall e do efeito Shubnikov-de Haas). As medidas de Subnikov-de Haas a temperaturas da ordem de dezenas a centenas de milikelvin com variação do ângulo de inclinação se mostram um eficiente método para a determinação do fator g. Distinguimos não só o fator g determinado pelas propriedades da liga, como também uma contribuição oriunda de efeitos de muitos corpos (contribuição de troca). Por outro lado, as medidas de Hall nos revelam um comportamento anômalo, que mostramos não ter origem no conhecido "efeito Hall anômalo" presente em materiais ferromagnéticos, nem em efeitos de ocupação de múltiplas sub-bandas. Atribuímos o fenômeno a um efeito "válvula de spin", conseqüente da variação espacial do fator g. Nossas observações nos permitem a idealização de um transistor "válvula de spin", prescindindo do emprego de materiais magnéticos. / We present the results of our investigations concerning MBE grown AlGaAs/GaAs parabolic quantum well (PQW) samples. We focused on the variation of the Landé g factor along the structure of the PQWs, which occur as a consquence of its dependence on the Al content on the alloy AlGaAs. The implications are studied by Hall and Shubnikov-de Haas measurements. Shubnikov-de Haas measurements at temperatures of the order of tenths to hundreds of milikelvin with variation of the tilt angle are shown to be an efficient method for the determination of the g factor. We could distinguish not only the alloy g factor, but its many body contribution (exchange contribution). On the other hand, Hall measurements exhibit an unusual behavior, which we prooved it has no relation neither to the well known "anomalous Hall effect", a characteristic of ferromagnetic materials, nor to a multi subband occupation effect. We atribute such behavior to a "spin valve effect", caused by the spatial variation of the g factor. Our observations allow us to idealize a "spin valve" transistor, without any ferromagnetic material in its structure.

AlGaAs

efeito Hall

efeito Shubnikov-de Haas

fator g

poços quânticos parabólicos

semicondutores

spintrônica

válvula de spin

AlGaAs

g factor

Hall effect

parabolic quantum wells

semiconductors

Shubnikov-de Haas effect

spin valve

spintronics

Electrical properties of Si/Si←1←-←xGe←x/Si inverted modulation doped structures

Sadeghzadeh, Mohammad Ali

January 1998

No description available.

541

Magnetotransport in BEDT-TTF salts

Nam, Moon-Sun

January 2000

No description available.

530.41

High magnetic field studies of BEDT-TTF organic conductors

Honold, Markus Michael

January 1999

No description available.

530.41

Magnetotransport in Two Dimensional Electron Systems Under Microwave Excitation and in Highly Oriented Pyrolytic Graphite

Ramanayaka, Aruna N

07 August 2012

This thesis consists of two parts. The first part considers the effect of microwave radiation on magnetotransport in high quality GaAs/AlGaAs heterostructure two dimensional electron systems. The effect of microwave (MW) radiation on electron temperature was studied by investigating the amplitude of the Shubnikov de Haas (SdH) oscillations in a regime where the cyclotron frequency $\omega_{c}$ and the MW angular frequency $\omega$ satisfy $2\omega \leq \omega_{c} \leq 3.5\omega$. The results indicate negligible electron heating under modest MW photoexcitation, in agreement with theoretical predictions. Next, the effect of the polarization direction of the linearly polarized MWs on the MW induced magnetoresistance oscillation amplitude was investigated. The results demonstrate the first indications of polarization dependence of MW induced magnetoresistance oscillations. In the second part, experiments on the magnetotransport of three dimensional highly oriented pyrolytic graphite (HOPG) reveal a non-zero Berry phase for HOPG. Furthermore, a novel phase relation between oscillatory magneto- and Hall- resistances was discovered from the studies of the HOPG specimen.

Two dimensional electron systems

Graphite

Quantum Hall effect

Resistivity rule

Shubnikov de Haas oscillations

CO₂-Laser Induced Hot Electron Magneto-Transport Effects in n-InSb

Moore, Bradley T.

08 1900

The effects of optical heating via infrared free carrier absorption on the electron magneto-transport properties of n-InSb at helium temperatures have been studied for the first time. Oscillatory photoconductivity (OPC) type structure is seen in the photon energy dependence of the transport properties. A C0₂ laser (hω = 115 to 135 meV) was used as the optical source. Concentrations between 1 x 10¹⁵ cm⁻³ and 2 x 10¹⁶ cm⁻³ were studied. The conclusions of this study are that the energy relaxation of high energy photoexcited electrons, generated by free carrier absorption of C0₂ laser radiation in degenerate n-InSb at liquid helium temperatures, is by emission of a maximum number of optical phonons, and that this relaxation mechanism produces OPC type structure in the photon energy dependence of the electron temperature of the conduction band electron gas. This structure is seen, therefore, in the transport properties of the sample, including the Shubnikovde Haas effect, the effective absorption coefficient, and the photoconductivity (mobility) response (lower concentrations only). In addition, the highest concentration studied, nₑ = ~2 x 10¹⁶ cm⁻³, sets an experimental lower limit on the concentration at which electron-electron scattering will become the dominant energy relaxation mechanism for the photoexcited electrons, since OPC effects were present in this sample.

electron magneto-transport

n-InSb

optical heating

Hot carriers.

Shubnikov-de Haas effect.

Lasers.