Global ETD Search

251	Propriedades estáticas e dinâmicas de sistemas fortemente correlacionados Ramos, Flávia Braga 17 February 2017 (has links) FAPEMIG - Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Neste trabalho, investigamos propriedades estáticas e dinâmicas de sistemas fortemente correlacionados quase-unidimensionais. A principal técnica utilizada no estudo de tais sistemas foi o grupo de renormalização da matriz de densidade. Neste contexto, um dos sistemas que consideramos foram as escadas de Heisenberg de N pernas com spin-s. Para estas escadas, investigamos propriedades estáticas, tais como energia por sítio no limite termodinâmico e gap de spin. Em particular, verificamos a validade da conjectura de Haldane-Sénéchal-Sierra para o comportamento do gap de spin das escadas de Heisenberg. Ainda para sistemas com geometria de escadas, outro problema que analisamos foi a entropia de emaranhamento de escadas quânticas críticas. Neste caso, propusemos uma conjectura para o comportamento de escala desta entropia. A fim de verificar nossa conjectura, consideramos as escadas férmions livres, de Heisenberg e escadas de Ising quânticas. Por fim, investigamos o comportamento das correlações dinâmicas de sistemas fortemente correlacionados unidimensionais. Para este caso, apresentamos um estudo detalhado do comportamento assintótico das autocorrelações de spin dinâmicas no bulk e na borda de tais sistemas. / In this work, we investigated static and dynamical properties of quasi-one-dimensional strongly correlated systems. The main technique used in the study of such systems was the density matrix renormalization group. In this context, one of the systems that we considered were the spin-s N-leg Heisenberg ladders. For these ladders, we investigated static properties, such as the energy per site in the thermodynamic limit and the spin gap. In particular, we checked the validity of the Haldane-Sénéchal-Sierra's conjecture for the spin gap behavior of the Heisenberg ladders. Also for systems with ladders geometry, another problem that we analyzed was the entanglement entropy of quantum critical ladders. In this case, we proposed a conjecture for the scaling behavior of this entropy. In order to check our conjecture, we consider free fermions, Heisenberg ladders and quantum Ising ladders. Finally, we investigated the behavior of the dynamical correlations in one-dimensional strongly correlated systems. For this case, we presented a detailed study of the asymptotic behavior of the dynamical spin autocorrelations at the bulk and the boundary of such systems. / Tese (Doutorado) CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA Física Mecânica quântica Schrodinger, Equação de Sistemas abertos (Física) Sistemas fortemente correlacionados DMRG Escadas quânticas Entropia de emaranhamento Correlações dinâmicas Strongly correlated systems DMRG Quantum ladders Entanglement entropy Dynamical correlations
252	Evolução da superfície de Fermi do La2-xSrxCuO4: estados locais de Wannier/Hartree-Fock VIELZA DE LA CRUZ, Yoandris 30 August 2016 (has links) Submitted by Irene Nascimento (irene.kessia@ufpe.br) on 2017-04-17T18:48:07Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação Mestrado.pdf: 3421668 bytes, checksum: 4a6d6f2568841028e0b66b952f2d15ba (MD5) / Made available in DSpace on 2017-04-17T18:48:07Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Dissertação Mestrado.pdf: 3421668 bytes, checksum: 4a6d6f2568841028e0b66b952f2d15ba (MD5) Previous issue date: 2016-08-30 / Este trabalho é uma extensão de uma modelagem tight−binding de estados de Wannier com interação coulombiana de screening para a descrição de elétrons correlacionados nas camadas de CuO2 do La2CuO4. Na condição de banda semicheia e temperatura T = 0 K, esta modelagem é capaz de predizer um estado fundamental antiferromagnético isolante e um estado excitado paramagnético com pseudo-gap, cuja natureza ainda é debatido na literatura. Esses estados são obtidos no contexto de uma solução auto-consistente tipo Hartree-Fock na modelagem de uma banda efetiva de estados de Wannier, sob condições de quebra de simetria de translações espaciais e efeito de emaranhamento (entanglement) na estrutura espinorial dos estados eletrônicos. No regime dopado com buracos, esses estados ficam degenerados num ponto crítico de concentração de buracos igual a xc = 0.2, resultando em uma transição de fase quântica de segunda ordem para um estado paramagnético. A modelagem dá assim explicação à existência detectada experimentalmente desta transição de fase. Em nosso trabalho generalizamos o termo cinético da modelagem acima mencionada através da inclusão de hopping entre segundos vizinhos, de acordo com observações experimentais. De fato, a inclusão deste novo termo cinético resulta em melhor concordância da previsão da modelagem e as observações experimentais da evolução da superfície de Fermi com dopagem de buracos. Em particular, enquanto na modelagem restrita a primeiros vizinhos não podemos conciliar a transição de fase quântica observada a xc = 0.2 com as características experimentais da evolução da superfície de Fermi, isto torna-se possível com a inclusão do hopping de segundos vizinhos com amplitude sugerida pelos resultados experimentais. / This work is an extension of a tight - binding model of states of Wannier with screened Coulomb interaction to the description of correlated electrons in the layers of CuO2 of the La2CuO4. In condition of half-filled band and temperature T = 0 K, this model is able to predict a antiferromagnetic insulating ground state and a paramagnetic excited state with pseudo-gap, which nature is still debated in the literature. These states are obtained in the context of a self-consistent solution type Hartree-Fock in the model of an effective band of the Wannier states under breaking conditions of symmetry of space translations and entanglement effect in the spinor structure of the electronic states. In scheme doped with holes, these states are degenerate at critical point of hole concentration equal to xc = 0.2, resulting in a quantum phase transition of second order to paramagnetic state. The model thus gives explanation to the existence of this experimentally detected phase transition. In our work we generalize the kinetic term of above mentioned model by inclusion of hopping between seconds neighboring, according to experimental observations. In fact, the inclusion of this new kinetic term results in better agreement of the forecast of the model and experimental observations of the evolution of the Fermi surface with holes doping. In particular, while the model is restricted to the first neighbors can not reconcile quantum phase transition observed at xc = 0.2 with the experimental characteristics of the evolution of the Fermi surface, this becomes possible with the inclusion of hopping between second neighboring with ampliude suggested by experimental results.
253	Dynamique des opérateurs sur les Grassmanniennes / Dynamics of linear operators on Grassmannians Ernst, Romuald 03 December 2013 (has links) Les travaux présentés dans cette thèse concernent la dynamique d'opérateurs pour des sous-espaces. Nous étudions principalement deux notions de dynamique pour des sous-espaces qui sont la n-supercyclicité et la forte n-supercyclicité. Dans une première partie, nous étudions l'existence de tels opérateurs dans le cadre des espaces de dimension finie et nous exhibons les indices de supercyclicité admissibles pour des espaces réels de dimension finie. Dans une deuxième partie, nous étudions en détail les opérateurs fortement n-supercycliques en exhibant leurs propriétés spectrales et en donnant des caractérisations pour certaines classes d'opérateurs. Nous détaillons ensuite une nouvelle notion de dynamique pour des sous-espaces de codimension finie et nous étudions les propriétés de tels opérateurs, en particulier le lien "dual" avec les opérateurs fortement n-supercycliques. Enfin, nous terminons avec une caractérisation des opérateurs chaotiques sur certains types d'espaces de suites sans base inconditionnelle, un critère de supercyclicité pour des opérateurs non-bornés et une condition suffisante pour obtenir un opérateur multiple mélangeant de tout degré. / This dissertation deals with some recent notions of linear dynamics of subspaces. In the first part, we provide a detailed study of n-supercyclicity and strong n-supercyclicicty in the finite dimensional setting. In particular we give a characterisation of the indices for which there exist n-supercyclic operators. We focus then on spectral properties of strongly n-supercyclic operators and on general properties as well. We also provide examples of operators whose supercyclic and strongly n-supercyclic behaviour are different. We introduce a new class of operators dealing with orbits of subspaces of finite codimension and we exhibit a \dual\ link with strong n-supercyclicity. Independently of these results, we give a characterisation of chaotic weighted shifts on a class of sequence spaces not necessarily admitting an unconditional basis. We conclude with a study of supercyclicity for unbounded operators and a sufficient condition to obtain multiple mixing operators. Opérateurs Hypercyclique Supercyclique Chaotique Mélangeant Multiple mélangeant Fortement n-supercyclique N-supercyclique Grassmannienne Espace de James Operators Hypercyclic Supercyclic Chaotic Mixing Multiple mixing Strongly n-supercyclic N-supercyclic Grassmannian James' space
254	Anisotropic interactions in transition metal oxides Bogdanov, Nikolay 16 April 2018 (has links) (PDF) This thesis covers different problems that arise due to crystal and pseudospin anisotropy present in 3d and 5d transition metal oxides. We demonstrate that the methods of computational quantum chemistry can be fruitfully used for quantitative studies of such problems. In Chapter 2, Chapter 3, and Chapter 7 we show that it is possible to reliably calculate local multiplet splittings fully ab initio, and therefore help to assign peaks in experimental spectra to corresponding electronic states. In a situation of large number of peaks due to low local symmetry such assignment using semi-empirical methods can be very tedious and non-unique. Moreover, in Chapter 4 we present a computational scheme for calculating intensities as observed in the resonant inelastic X-ray scattering and X-ray absorption experiments. In our scheme highly-excited core-hole states are calculated explicitly taking into account corresponding orbital relaxation and electron polarization. Computed Cu L-edge spectra for the Li2CuO2 compound reproduce all features present in experiment. Unbiased ab initio calculations allow us to unravel a delicate interplay between the distortion of the local ligand cage around the transition metal ions and the anisotropic electrostatic interactions due to second and farther coordination shells. As shown in Chapter 5 and Chapter 6 this interplay can lead to the counter intuitive multiplet structure, single-ion anisotropy, and magnetic g factors. The effect is quite general and may occur in compounds with large difference between charges of metal ions that form anisotropic environment around the transition metal, like Ir 4+ in plane versus Sr 2+ out of plane in the case of Sr2IrO4. An important aspect of the presented study is the mapping of the quantum chemistry results onto simpler physical models, namely extended Heisenberg model, providing an ab initio parametrization. In Chapter 5 we employ the effective Hamiltonian technique for extracting parameters of the anisotropic Heisenberg model with single-ion anisotropy in the case of quenched orbital moment and second-order spin-orbit coupling. Calculated strong easy-axis anisotropy of the same order of magnitude as the symmetric exchange is consistent with experimentally-observer all-in/all-out magnetic order. In Chapter 6 we introduce new flavour of the mapping procedure applicable to systems with first-order spin-orbit coupling, such as 5d 5 iridates based on analysis of the wavefunction and interaction with magnetic field. In Chapter 6 and Chapter 7 we use this new procedure to obtain parameters of the pseudospin anisotropic Heisenberg model. We find large antisymmetric exchange leading to the canted antiferromagnetic state in Sr2IrO4 and nearly ideal one-dimensional Heisenberg behaviour of the CaIrO3, both agree very well with experimental findings. Anisotropie Cuprate Iridate Osmate RIXS stark korrelierte Elektronen Übergangsmetalloxide Quantenchemie Magnetismus anisotropy cuprates iridates osmates RIXS strongly correlated electrons transition metal oxides quantum chemistry magnetism ddc:540 rvk:VE 5657 Anisotropie Quantenchemie Cuprate Iridate Übergangsmetalloxide Magnetismus
255	Etude in situ, par diffraction des rayons X et diffusion neutronique sur monocristaux, de la complexité structurale de l'oxyde fortement corrélé Pr2-xSrxNiO4+δ / Structural complexity in strongly correlated Pr2-xSrxNiO4+δ, explored by in situ single crystal X-ray and neutron diffraction Dutta, Rajesh 27 November 2017 (has links) Les oxydes non-stoechiométriques de type Ruddlesden-Popper, tel que Pr2NiO4+δ, peuvent être dopés en trous par substitution du strontium au praséodyme ou par insertion d’oxygène. Ces modes de dopage s’accompagnent de mises en ordre complexes impliquant la distribution des ions oxygène excédentaires, des ordres de charge et/ou de spin. Le diagramme de phase de Pr2-xSrxNiO4+δ a été exploré par diffraction des rayons X (en laboratoire et par rayonnement synchrotron) ainsi que neutronique. Pour la phase Pr2NiO4.25, nous avons mis en évidence une sur-structure incommensurable avec des réflexions satellites au 6ème ordre, produisant un spectre de diffraction très complexe avec 4 individus et 8 domaines incommensurables. Par diffractions synchrotron et neutronique, un ordre de charge de type échiquier a été identifié dès la température ambiante, suivi en dessous de 170 K par un ordre de type rubans ; un ordre de spin incommensurable s’établit au-dessous de 99 K. Ce travail a permis de révéler un ensemble complexe de phases ordonnées structuralement et électroniquement, gouvernées par des variations subtiles de stoechiométrie en strontium et oxygène. / Non-stoichiometric oxides from the Ruddlesden-Popper series, such as Pr2NiO4+δ, can be hole-doped by substituting strontium to praseodymium or by oxygen insertion. This leads to complex structural ordering involving oxygen-, charge- and spin ordering. The complex phase diagram of Pr2-xSrxNiO4+δ was explored using X-ray (laboratory and synchrotron) as well as neutron diffractions. For the doped phase of highest oxygen content (Pr2NiO4.25), we could evidence an incommensurate structure with satellite reflections of 6th order, yielding a very complex diffraction pattern of up to four twin-individuals and eight incommensurate domains. Checkerboard-type charge ordering was identified already at ambient temperature, while stripe charge ordering was observed below 170 K by synchrotron and neutron diffraction; incommensurate spin ordering appears below 99 K. This thesis reveals the existence of many complex oxygen and electronically ordered phases going along with small variations of the oxygen/strontium stoichiometry. Oxides fortment corrélés Dopage par trou Structures modules Ordre de charge-spin Oxides non-stoechiometriques Mobilite de l'oxygene Strongly correlated electron system Hole doping Modulated structure Charge-spin ordering Non-stoichiometric oxides Oxygen mobility 541.042
256	Charge properties of cuprates: ground state and excitations Waidacher, Christoph 17 March 2000 (has links) This thesis analyzes charge properties of (undoped) cuprate compounds from a theoretical point of view. The central question considered here is: How does the dimensionality of the CU-O sub-structure influence its charge degrees of freedom? The model used to describe the Cu-O sub-structure is the three- (or multi-) band Hubbard model. Analytical approaches are employed (ground-state formalism for strongly correlated systems, Mori-Zwanzig projection technique) as well as numerical simulations (Projector Quantum Monte Carlo, exact diagonalization). Several results are compared to experimental data. The following materials have been chosen as candidates to represent different Cu-O sub-structures: Bi2CuO4 (isolated CuO4 plaquettes), Li2CuO2 (chains of edge-sharing plaquettes), Sr2CuO3 (chains of corner-sharing plaquettes), and Sr2CuO2Cl2 (planes of plaquettes). Several results presented in this thesis are valid for other cuprates as well. Two different aspects of charge properties are analyzed: 1) Charge properties of the ground state 2) Charge excitations. (gekürzte Fassung) info:eu-repo/classification/ddc/29 ddc:29 nicht angegeben
257	Topological Floquet states, artificial gauge fields in strongly correlated quantum fluids / États de Floquet topologiques, champs de jauge artificiels dans des fluides quantiques fortement corrélés Plekhanov, Kirill 07 September 2018 (has links) Dans cette thèse nous abordons des aspects topologiques de la matière condensée. Les états topologiques sont insensibles à un large spectre des perturbations externes et au désordre – une propriété indispensable dans le domaine d'information quantique. L’effet des interactions dans des systèmes topologiques est pourtant loin d’être bien maîtrisé à ce jour. Dans ce travail, nous étudions la corrélation entre la description topologique et l'effet des interactions. Afin d'accomplir notre but, nous utilisons des méthodes analytiques et numériques. Nous nous intéressons aussi à des sondes expérimentales qui peuvent être utilisées pour vérifier nos prédictions théoriques. Tout d’abord, nous étudions la version bosonique en interactions du modèle de Haldane – le modèle célèbre qui décrit l’effet Hall anomal. Nous proposons son implémentation expérimentale dans des circuits quantiques, basée sur l’application de perturbation périodique dépendantes du temps – méthodologie qui s’appelle l’ingénierie de Floquet. En poursuivant ces idées, nous étudions la version bosonique du modèle de Kane-Mele d’un isolant topologique. Ce modèle possède un diagramme de phase très riche. En particulier, lorsque les interactions sont fortes, nous observons l’apparition d’un modèle de magnétisme frustrée présentant une variété d'états exotiques. La mise en œuvre de ces modèles dans des réseaux d'atomes ultra-froids ou des circuits quantiques permettra de sonder expérimentalement les propriétés exotiques que nous avons observées. Ensuite, nous abordons d’une manière plus détaillée la réalisation expérimentale des modèles topologiques dans des circuits quantiques, en considérant le cas particulier du modèle de Su-Schrieffer-Heeger en couplage fort. Nous testons aussi des nouvelles sondes qui peuvent être utilisées afin de mesurer la phase de Zak et en déduire la topologie du système. Finalement, nous nous intéressons aux sondes hors d’équilibre et des méthodes pour tester les propriétés spectrales de systèmes quantiques, en utilisant l’approche de purification, pertinent pour le numérique et les expériences. / In this thesis we study the topological aspects of condensed matter physics, that received a revolutionary development in the last decades. Topological states of matter are protected against perturbations and disorder, making them very promising in the context of quantum information. The interplay between topology and interactions in such systems is however far from being well understood, while the experimental realization is challenging. Thus, in this work we investigate analytically such strongly correlated states of matter and explore new protocols to probe experimentally their properties. In order to do this, we use various analytical and numerical techniques. First, we analyze the properties of an interacting bosonic version of the celebrated Haldane model – the model for the quantum anomalous Hall effect. We propose its quantum circuit implementation based on the application of periodic time-dependent perturbations – Floquet engineering. Continuing these ideas, we study the interacting bosonic version of the Kane-Mele model – the first model of a topological insulator. This model has a very rich phase diagram with an emergence of an effective frustrated magnetic model and a variety of symmetry broken spin states in the strongly interacting regime. Ultra-cold atoms or quantum circuits implementation of both Haldane and Kane-Mele bosonic models would allow for experimental probes of the exotic states we observed. Second, in order to deepen the perspectives of quantum circuit simulations of topological phases we analyze the strong coupling limit of the Su-Schrieffer-Heeger model and we test new experimental probes of its topology associated with the Zak phase. We also work on the out-of-equilibrium protocols to study bulk spectral properties of quantum systems and quantum phase transitions using a purification scheme which could be implemented both numerically and experimentally. Physique de la matière condensée Phases topologiques Systèmes fortement corrélés Méthodes numériques Simulateurs quantiques Ingénierie de Floquet Theoretical condensed matter Topological phases Strongly correlated quantum fluids Numerical techniques Quantum simulators Floquet engineering
258	Out-of-equilibrium electron dynamics of Dirac semimetals and strongly correlated materials / Dynamique hors équilibre des électrons dans les sémimétaux de Dirac et les matériaux fortement corrélés Nilforoushan, Niloufar 17 December 2018 (has links) Les matériaux quantiques ont récemment introduit en physique de la matière condensée pour unifier tous les matériaux dans lesquels les fortes corrélations électroniques gouvernent les propriétés physiques du système (e.g. les isolants de Mott) et les matériaux dont les propriétés électroniques sont déterminées par la géométrie de la fonction d’onde (e.g. matériaux de Dirac). Ces matériaux montrent des propriétés émergentes résultantes de l’intrication de différents degrés de libertés : la charge, le spin et le moment orbital, donnant lieu aux propriétés topologiques des électrons. L’étude de ces interactions et des compétitions entre les degrés de liberté pertinents nécessite l’utilisation de techniques pompe-sonde ultra-rapides. Particulièrement, les pulses laser femtosecondes interagissent uniquement avec les électrons pour les placer dans un état hors-équilibre décrit par des distributions de type non Fermi-Dirac. La dynamique subséquente implique de nombreux processus, avec un temps de relaxation relié aux constantes de couplage. De plus, dans les techniques résolues en temps, la lumière peut agir comme un paramètre externe, différent des paramètres thermodynamiques, pour explorer le diagramme de phase. Cela nous donne l’opportunité de stabiliser de nouveaux états inaccessibles par des chemins thermiques quasi-adiabatiques ou de manipuler les propriétés physiques des systèmes.Dans cette thèse, nous avons réalisé différentes expériences dans le but d’étudier les propriétés à l’équilibre et hors équilibre de deux matériaux corrélés: BaCo₁₋ₓNiₓS₂ et (V₁₋ₓMₓ)₂O₃.La première partie de ce projet a été dédiée principalement à l’étude de BaNiS₂, le précurseur métallique de la transition de Mott dans BaCo₁₋ₓNiₓS₂ . En utilisant l’ARPES, nous avons étudié la structure de bandes électroniques de BaNiS₂ dans toute la zone de Brillouin. L’expérience, combinée avec des calculs théoriques, révèle un nouveau type de cône de Dirac bidimensionel à caractère orbitalaire d et induit par les corrélations. Le croisement des bandes est protégé par les symétries particulières de la structure cristalline. Nous avons aussi mesuré la structure de bandes de l’isolant de Mott BaCoS₂ dans ses phases magnétique et non magnétiques.Dans la seconde partie, nous avons étudié la dynamique électronique hors équilibre de BaNiS₂ et (V₁₋ₓMx)₂O₃. Grâce à des mesures tr-ARPES et tr-Réflectivité, nous avons observé une renormalisation non thermique et ultra-rapide du cône de Dirac dans BaNiS₂. Ce phénomène est purement provoqué par les excitations électroniques et est stabilisé par l’intéraction entre les électrons et les phonons. De plus, en utilisant différentes techniques pompe-sonde (tr-XRD basé sur XFEL et tr-Réflectivité) nous avons aussi exploré des phases hors-équilibre du matériau prototype de Mott-Hubbard (V₁₋ₓMx)₂O₃ appartenant à différentes parties de son diagramme de phase. Nos résultats montrent une phase transitoire non thermique se développant immédiatement après la photoexcitation ultra-rapide et durant quelques picosecondes dans les phases métallique et isolantes. Cette phase transitoire est accompagné par une distorsion structural qui correspond à un durcissement du réseau et est marqué par un “blue shift” du mode phononique A₁g. Nos résultats soulignent l’importance du remplissage des orbitales aussi bien que des effets important des forts couplages électron-réseau sélectifs dans les matériaux fortement corrélés. / Quantum materials is a new term in condensed matter physics that unifies all materials in which strong electronic correlation governs physical properties of the system (e.g. Mott insulators) and materials whose electronic properties are determined by the geometry of the electronic wave function (e.g. Dirac materials). These materials show emergent properties– that is, properties that only appear by intricate interactions among many degrees of freedom, such as charge, spin and orbital, giving rise to topological properties of electrons. The study of these interactions and competitions between the relevant degrees of freedom demands applying ultrafast pump-probe techniques. Particularly, femtosecond laser pulses act only on the electrons and set them to an out-of-equilibrium state inexplicable by the Fermi-Dirac distribution. The ensuing dynamics involves various processes and the rate at which the relaxation occurs is related to the coupling constants. Moreover, in time-resolved pump-probe techniques light can act as an additional external parameter to change of the phase diagram – different from thermodynamic parameters. It gives us the opportunity of stabilizing new states inaccessible by quasi-adiabatic thermal pathways or eventually manipulating the physical properties of the systems.In this thesis, we performed different experiments in order to study the equilibrium and out-of-equilibrium properties of two correlated compounds: BaCo₁₋ₓNiₓS₂ and (V₁₋ₓMₓ)₂O₃.The first part of the project was mainly devoted to the study of BaNiS₂ that is the metallic precursor of the Mott transition in BaCo₁₋ₓNiₓS₂. By applying ARPES, we studied the electronic band structure of BaNiS₂ in its entire Brillouin zone. These results combined with some theoretical calculations give evidence of a novel correlation-induced and two-dimensional Dirac cone with d-orbital character. The band crossing is protected by the specific symmetries of the crystal structure. We also investigated the electronic band structure of the Mott insulator BaCoS₂ in its magnetic and nonmagnetic phases.In the second part, we studied the out-of-equilibrium electron dynamics of BaNiS₂ and (V₁₋ₓMx)₂O₃. By means of tr-ARPES and tr-reflectivity measurements, we observed an ultrafast and non-thermal renormalization of the Dirac cone in BaNiS₂ . This phenomenon is purely provoked by the electronic excitation and is stabilized by the interplay between the electrons and phonons. Moreover, by applying various pump-probe techniques (XFEL-based tr-XRD and tr-Reflectivity) we also explored the out-of-equilibrium phases of the prototype Mott-Hubbard material (V₁₋ₓMx)₂O₃ in different parts of its phase diagram. Our results show a transient non-thermal phase developing immediately after ultrafast photoexcitation and lasting few picoseconds in both metallic and insulating phases. This transient phase is followed by a structural distortion that corresponds to a lattice hardening and is marked by a “blue shift” of the A₁g phonon mode. These results underline the importance of the orbital filling as well as the strong effect of the selective electron-lattice coupling in the strongly correlated materials. Spectroscopie ultra-Rapide Dynamique ultra-rapide des électrons Matériaux fortement corrélés Matériaux de Dirac Spectroscopie résolue en temps ARPES Ultrafast spectroscopy Ultrafast electron dynamics Strongly correlated materials Dirac materials Time-resolved spectroscopy ARPES
259	Contamination des calanques par les micropolluants organiques (Cortiou) zone côtière de Marseille, France / Organic micro-pollutant contamination in calanques (Cortiou creek), coastal area of Marseilles, France Umasangaji, Halikuddin 19 December 2018 (has links) L'explosion démographique a conduit à une augmentation intensive des contaminants environnementaux issus de différentes émissions anthropiques, par exemple, les hydrocarbures de pétrole, les pesticides, les biphényles polychlorés (BPC) ainsi que d’autres déchets ménagers tels que les détergents utilisés comme nettoyants ménagers. Du fait de leur persistance et du point de vue toxicologique, les résidus de ces contaminants organiques, qui peuvent être détectés dans les différentes matrices environnementales (eau, sédiments, air et biotes), parfois à très faible concentration (micropolluants), ont conquis l'attention du public. Cette étude vise à déterminer les niveaux de concentration de contaminants sélectionnés dans les sédiments de surface et à identifier la source de ces produits chimiques dans le ruisseau Cortiou. Les résultats ont montré une forte contamination par les hydrocarbures dans la zone étudiée. De plus, ces résultats ont probablement reflété le fait que les processus de biodégradation se sont produits parallèlement à une répartition chronique des charges d’épuration non traitées. Ces polluants organiques ont également confirmé un effet néfaste sur le biote marin et plus particulièrement sur les communautés benthiques pour certaines stations / Demographic explosion has led to increase intensively environmental contaminants issued from different anthropogenic release e.g. petroleum hydrocarbons, pesticides, polychlorinated biphenyls (PCBs) and also other domestic waste such as detergents as household cleaner. Due to their persistence and the toxicological point of view, the remnants of these organic contaminants, which can be detected in the different environmental matrices (water, sediment, air and biota), sometimes with very low concentration (micropollutants), has gained the public attention. This study aims to determine the concentration levels of selected contaminants in surficial sediments and identifying the source of these chemicals in Cortiou Creek. The results showed high contamination by hydrocarbons in the studied area. Additionally, these results probably reflected that biodegradation processes occurred concomitantly with a chronic apportionment of untreated sewage loading. These organic pollutants also confirmed an adverse effect for marine biota and more particularly for benthic communities for some stations Micropolluants organiques Calanque Cortiou Station d'epurations Contaminations fortement Polycyclic aromatic hydrocarbures PCBs OC LABs APs Emerging organic micropollutants Wastewater treatment plants Cortiou creecks Strongly contamination PAHs PCBs OCs LABs APs
260	Theoretical approach to Direct Resonant Inelastic X-Ray Scattering on Magnets and Superconductors Marra, Pasquale 26 October 2015 (has links) The capability to probe the dispersion of elementary spin, charge, orbital, and lattice excitations has positioned resonant inelastic x-ray scattering (RIXS) at the forefront of photon science. In this work, we will investigate how RIXS can contribute to a deeper understanding of the orbital properties and of the pairing mechanism in unconventional high-temperature superconductors. In particular, we will show how direct RIXS spectra of magnetic excitations can reveal long-range orbital correlations in transition metal compounds, by discriminating different kind of orbital order in magnetic and antiferromagnetic systems. Moreover, we will show how RIXS spectra of quasiparticle excitations in superconductors can measure the superconducting gap magnitude, and reveal the presence of nodal points and phase differences of the superconducting order parameter on the Fermi surface. This can reveal the properties of the underlying pairing mechanism in unconventional superconductors, in particular cuprates and iron pnictides, discriminating between different superconducting order parameter symmetries, such as s, d (singlet pairing) and p wave (triplet pairing). info:eu-repo/classification/ddc/530 ddc:530

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