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21	Interplay of Disorder and Transverse-Field Induced Quantum Fluctuations in the LiHo_xY_{1-x}F_4 Ising Magnetic Material Tabei, Seyed Mohiaddeen Ali January 2008 (has links) The LiHo_xY_{1-x}F_4 magnetic material in a transverse magnetic field B_x perpendicular to the Ising spin direction has long been used to study tunable quantum phase transitions in pure and random disordered systems. We first present analytical and numerical evidences for the validity of an effective spin-1/2 approach to the description of a general dipolar spin glass model with strong uniaxial Ising anisotropy and subject to weak B_x. We relate this toy model to the LiHo_xY_{1-x}F_4 transverse field Ising material. We show that an effective spin-1/2 model is able to capture both the qualitative and quantitative aspects of the physics at small B_x. After confirming the validity of the effective spin-1/2 approach, we show that the field-induced magnetization along the x direction, combined with the local random dilution-induced destruction of crystalline mirror symmetries generates, via the predominant dipolar interactions between Ho^{3+} ions, random fields along the Ising z direction. This identifies LiHo_xY_{1-x}F_4 in B_x as a new random field Ising system. We show that the random fields explain the smearing of the nonlinear susceptibility at the spin glass transition with increasing B_x. In this thesis, we also investigate the phase diagram of non-diluted LiHoF_4 in the presence of B_x, by performing Monte-Carlo simulations. A previous quantum Monte Carlo (QMC) simulation found that even for small B_x where quantum fluctuations are small, close to the classical critical point, there is a discrepancy between experiment and the QMC results. We revisit this problem, focusing on weak B_x close to the classical T_c, using an alternative approach. For small B_x, by applying a so-called cumulant expansion, the quantum fluctuations around the classical T_c are taken into account perturbatively. We derived an effective perturbative classical Hamiltonian, on which MC simulations are performed. With this method we investigate different proposed sources of uncertainty which can affect the numerical results. We fully reproduce the previous QMC results at small B_x. Unfortunately, we find that none of the modifications to the microscopic Hamiltonian that we explore are able to provide a B_x-T phase diagram compatible with the experiments in the small semi-classical B_x regime. Magnetism Quantum Magnetism Ising Quantum Phase Transition Spin Glass Random Field Mean Field Monte Carlo Effective Hamiltonian Perturbative Monte Carlo Quantum Monte Carlo Physics
22	Elektrischer Transport und Quantenkritikalität in reinem und substituiertem YbRh2Si2 / Electrical Transport and Quantum Criticality in pure and substituted YbRh2Si2 Friedemann, Sven 20 July 2010 (has links) (PDF) In der vorliegenden Arbeit wurde der elektrische Transport im Schwere-Fermionen-System YbRh2Si2 sowohl in seiner stöchiometrischen Form als auch mit teilweiser isoelektronischer Substitution von Ir oder Co auf dem Rh-Platz untersucht. In YbRh2Si2 liegt ein quantenkritischer Punkt vor, der zugänglich ist, indem der antiferromagnetische Phasenübergang mittels eines kleinen Magnetfelds zum absoluten Nullpunkt der Temperatur unterdrückt wird. Die zentralen Messungen des Hallkoeffizienten zeigen einen Übergang der in der Extrapolation zu T=0 zu einer Diskontinuität wird und somit auf eine Rekonstruktion der Fermifläche am quantenkritischen Punkt schließen lässt. Dies belegt die unkonventionelle Natur der Quantenkritikalität in YbRh2Si2. Unterstützt wird dies auf fundamentale Weise durch verknüpfungen mit unkonventionellem Skalierungsverhalten. In den Proben mit teilweiser Substitution wird der Einfluss einer Veränderung der Gitterparameter auf die Quantenkritikalität mit Hilfe von Widerstandsmessungen untersucht. Dabei zeigt sich, dass der magnetische Übergang von der Fermiflächenrekonstruktion separiert wird. Für Proben mit teilweiser Ir-Substitution, welche negativen Drücken entspricht, scheint im Zwischenbereich eine neuartige metallische Spinflüssigkeit hervorzutreten. / This work investigates the electrical transport of the heavy-fermion compound YbRh2Si2 in its stoichiometric form as well as with slight isoelectronic substitution of Ir or Co on the Rh site. A quantum critical point is present in YbRh2Si2 which is accessed by tuning the transition temperature of the antiferromagnetic order to absolute zero via the application of a small magnetic field. The central measurements of the Hall coefficient reveal a crossover which sharpens to a discontinuity in the extrapolation to zero temperature implying a reconstruction of the Fermi surface at the quantum critical point. This allows to rule out conventional descriptions of the quantum criticality in YbRh2Si2. A scaling analysis corroborates this on a fundamental basis. In the samples with partial substitution the effect of unit cell volume change on the quantum criticality was investigated by means of resistivity measurements. Surprisingly, the magnetic transition is separated from the Fermi surface reconstruction. For samples with Ir substitution corresponding to negative chemical pressure, a new metallic spin liquid seems to emerge in the intermediate regime. Kondoeffekt Schweres Fermionen System Halleffekt Quantenkritischer Punkt Quantenphasenübergang YbRh2Si2 Kondo effect heavy fermion system Hall effect quantum criticality quantum phase transition YbRh2Si2 ddc:530 rvk:UP 5110 rvk:UG 2300
23	Dynamique et transport au voisinage d'une transition de phase quantique en dimension deux / Dynamics and transport in the vicinity of a quantum phase transition in dimension two Rose, Félix 19 September 2017 (has links) Nous étudions le modèle O (N) relativiste, une généralisation quantique de la théorie φ⁴ utilisée en physique statistique pour étudier des transitions de phase. Ce modèle décrit certaines transitions de phase quantiques telles que la transition isolant de Mott-superfluide dans un gaz de bosons piégés dans un réseau optique ou la transition paramagnétique-antiferromagnétique dans un aimant. En deux dimensions d’espace, ces systèmes sont fortement corrélés près de la transition. Nous les étudions à l’aide du groupe de renormalisation non perturbatif, une formulation du groupe de renormalisation de Wilson. Nous nous intéressons aux propriétés universelles au voisinage de la transition de phase quantique à température nulle. Ainsi, nous déterminons les fonctions d’échelle universelles qui définissent la thermodynamique et démontrons que ces fonctions sont reliées à celles décrivant la force de Casimir critique dans un système classique tridimensionel. Ensuite, nous étudions le spectre d’excitation dans la phase ordonnée à température nulle. Pour N = 2 et 3, nous établissons l’existence d’un mode d’amplitude aussi appelé « mode de Higgs » par analogie avec le mécanisme de Higgs en physique des hautes énergies. Pour N = 1, nous montrons l’existence d’un état lié pour des dimensions proches de trois. Enfin, nous calculons la dépendance en fréquence de la conductivité à température nulle et confirmons son universalité, en particulier à la transition. Nous établissons que l’une des composantes du tenseur de conductivité dans la phase ordonnée est une quantité « superuniverselle », ne dépendant ni de la distance au point critique ni de N. / We study the relativistic O (N) model, a quantum generalization of the φ⁴ theory used in statistical physics to study some phase transitions. This model describes quantum phase transitions such as the Mott insulator-superluid transition in boson gases trapped in optical latices or the paramagnetic-antiferromagnetic transition in magnets. In two space dimensions, these systems exhibit strong correlations near the transition. We study them using the nonperturbative renormalization group, an implementation of Wilson’s renormalization group. We focus on the universal properties in the vicinity of the zero-temperature quantum phase transition. We determine the universal scaling functions which define the thermodynamics and we show that these functions are related to those describing the critical Casimir forces in a three-dimensional system. Then, we study the excitation spectrum in the zero-temperature ordered phase. For N = 2 and 3, we establish the existence of an amplitude mode, also called “Higgs mode” by analogy with the Higgs mechanism in high-energy physics. For N = 1, we show the existence of a bound state at dimensions close to three. Finally, we compute the frequency-dependent conductivity at zero temperature and confirm its universal character, in particular at the transition. We prove that one of the components of the conductivity tensor in the ordered phase is a “superuniversal” quantity depending neither on the distance to the critical point nor on N. Transition de phase quantique Equation d'état Higgs Conductivité Renormalisation de Wilson Quantum phase transition Nonperturbative renormalization group Equation of state 530.12
24	Prekursory fázových přechodů v kvantových systémech / Precursors of phase transitions in quantum systems Dvořák, Martin January 2015 (has links) In this diploma thesis precursors of quantum phase transitions in finite many-body systems are studied. The main attention is paid to the mechanism, how nonanalytic behaviour of the ground state is generated for certain critical values of real control parameters. It is shown that nonanalytic behaviour of energy levels and eigenstates is closely connected with exceptional points of the hamiltonian, which are points in control parameter space extended into a complex domain where at least two eigenvalues and corresponding eigenvectors coincide. Differences in the distribution of exceptional points in the complex plane of control parameter for the first and second order phase transitions and also evolutions of the position of exceptional points with increasing particle number are discussed.
25	Transport électronique dans le graphène et les isolants topologiques 2D en présence de désordre magnétique / Electronic transport in graphene and 2D topological insulators with magnetic disorder Demion, Arnaud 06 November 2015 (has links) Dans cette thèse, nous étudions l’effet du désordre magnétique sur les propriétés de transport électronique du graphène et des isolants topologiques 2D de type HgTe. Le graphène et les isolants topologiques sont des matériaux dont les excitations électroniques sont assimilées à des fermions de Dirac sans masse. L’influence des impuretés magnétiques sur les propriétés de transport du graphène est étudiée dans le régime de forts champs électriques. En conséquence de la production de paires électron-trou, la réponse devient non linéaire et dépend de la polarisation magnétique. Nous étudions une transition entre un isolant topologique bi-dimensionnel conducteur, caractérisé par une conductance G = 2 (en quantum de conductance) et un isolant de Chern avec G = 1, induite par des impuretés magnétiques polarisées. / In this thesis, we study the effect of a magnetic disorder on the electronic transport properties of graphene and HgTe-type 2D topological insulators. Graphene and topological insulators are materials whose electronic excitations are treated as massless Dirac fermions.The influence of magnetic impurities on the transport properties of graphene is investigated in the regime of strong applied electric fields. As a result of electron-hole pair creation, the response becomes nonlinear and dependent on the magnetic polarization.We investigate a transition between a two-dimensional topological insulator conduction state, characterized by a conductance G = 2 (in conductance quantum) and a Chern insulator with G = 1, induced by polarized magnetic impurities. Isolant topologique Graphène Désordre magnétique Localisation Fermion de Dirac Isolant de Chern Transition de phase quantique Topological insulator Graphene Magnetic disorder Localization Dirac fermion Chern insulator Quantum phase transition
26	Magnetic fluctuations and clusters in the itinerant ferromagnet Ni-V close to a disordered quantum critical point Wang, Ruizhe 23 April 2019 (has links) No description available. Condensed Matter Physics Physics Experiments quantum phase transition quantum Griffiths phase muon spin rotation atomic pair correlation ferromagnetic system magnetic fluctuation magnetic cluster
27	Gaussian Critical Line in Anisotropic Mixed Quantum Spin Chains / Gaußsche kritische Linie in anisotropen, gemischten Quantenspinketten Bischof, Rainer 18 March 2013 (has links) (PDF) By numerical methods, two models of anisotropic mixed quantum spin chains, consisting of spins of two different sizes, Sa = 1/2 and Sb = 1 as well as Sb = 3/2, are studied with respect to their critical properties at quantum phase transitions in a selected region of parameter space. The quantum spin chains are made up of basecells of four spins, according to the structure Sa − Sa − Sb − Sb. They are described by the XXZ Hamiltonian, that extends the quantum Heisenberg model by a variable anisotropic exchange interaction. As additional control parameter, an alternating exchange constant between nearest-neighbour spins is introduced. Insight gained by complementary application of exact diagonalization and quantum Monte Carlo simulations, as well as appropriate methods of analysis, is embedded in the broad existing knowledge on homogeneous quantum spin chains. In anisotropic homogeneous quantum spin chains, there exist phase boundaries with continuously varying critical exponents, the Gaussian critical lines, along which, in addition to standard scaling relations, further extended scaling relations hold. Reweighting methods, also applied to improved quantum Monte Carlo estimators, and finite-size scaling analysis of simulation data deliver a wealth of numerical results confirming the existence of a Gaussian critical line also in the mixed spin models considered. Extrapolation of exact data offers, apart from confirmation of simulation data, furthermore, insight into the conformal operator content of the model with Sb = 1. / Mittels numerischer Methoden werden zwei Modelle anisotroper gemischter Quantenspinketten, bestehend aus Spins zweier unterschiedlicher Größen, Sa = 1/2 und Sb = 1 sowie Sb = 3/2, hinsichtlich ihrer kritischen Eigenschaften an Quanten-Phasenübergängen in einem ausgewählten Parameterbereich untersucht. Die Quantenspinketten sind aus Basiszellen zu vier Spins, gemäß der Struktur Sa − Sa − Sb − Sb, aufgebaut. Sie werden durch den XXZ Hamiltonoperator beschrieben, der das isotrope Quanten-Heisenberg Modell um eine variable anistrope Austauschwechselwirkung erweitert. Als zusätzlicher Kontrollparameter wird eine alterniernde Kopplungskonstante zwischen unmittelbar benachbarten Spins eingeführt. Die durch komplementäre Anwendung exakter Diagonalisierung und Quanten-Monte-Carlo Simulationen, sowie entsprechender Analyseverfahren, gewonnenen Erkenntnisse werden in das umfangreiche existierende Wissen über homogene Quantenspinketten eingebettet. Im Speziellen treten in anisotropen homogenen Quantenspinketten Phasengrenzen mit kontinuierlich variierenden kritischen Exponenten auf, die Gaußschen kritischen Linien, auf denen neben den herkömmlichen auch erweiterte Skalenrelationen Gültigkeit besitzen. Umgewichtungsmethoden, speziell auch angewandt auf verbesserte Quanten-Monte-Carlo Schätzer, und Endlichkeitsskalenanalyse von Simulationsdaten liefern eine Fülle von numerischen Ergebnissen, die das Auftreten der Gaußschen kritischen Linie auch in den untersuchten gemischten Quantenspinketten bestätigen. Die Extrapolation exakter Daten bietet, neben der Bestätigung der Simulationsdaten, darüber hinaus Einblick in einen Teil des konformen Operatorinhalts des Modells mit Sb = 1. Quantum Spin Chains Quantum Monte Carlo Loop Algorithm Lanczos Quantum Phase Transition Critical Exponents Reweighting Logarithmic Corrections Quantenspinketten Quanten Monte Carlo Loop Algorithmus Lanczos Quanten Phasenübergänge Kritische Exponenten Umgewichtung Logarithmische Korrekturen ddc:530
28	El?trons fortemente correlacionados na vizinhan?a de uma transi??o de fase qu?ntica Farias, Carlene Paula Silva de 18 October 2013 (has links) Made available in DSpace on 2014-12-17T15:15:03Z (GMT). No. of bitstreams: 1 CarlenePSF_DISSERT.pdf: 1687677 bytes, checksum: 1148ebf1be9615049fa1952b3098a785 (MD5) Previous issue date: 2013-10-18 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The aim of this work is to derive theWard Identity for the low energy effective theory of a fermionic system in the presence of a hyperbolic Fermi surface coupled with a U(1) gauge field in 2+1 dimensions. These identities are important because they establish requirements for the theory to be gauge invariant. We will see that the identity associated Ward Identity (WI) of the model is not preserved at 1-loop order. This feature signalizes the presence of a quantum anomaly. In other words, a classical symmetry is broken dynamically by quantum fluctuations. Furthermore, we are considering that the system is close to a Quantum Phase Transitions and in vicinity of a Quantum Critical Point the fermionic excitations near the Fermi surface, decay through a Landau damping mechanism. All this ingredients need to be take explicitly to account and this leads us to calculate the vertex corrections as well as self energies effects, which in this way lead to one particle propagators which have a non-trivial frequency dependence / Nesse trabalho derivamos e checamos a Identidade de Ward (IW) para uma teoria efetiva de baixas energias de um sistema fermi?nico acoplado a um campo de gauge U(1), em 2+1 dimens?es, na presen?a de uma superf?cie de Fermi parab?lica. As identitades deWard s?o muito importantes pois, estabelecem requisitos para que a teoria efetiva seja invariante de gauge. Veremos que a IW n?o ? preservada em ordem de 1-loop. Isto caracteriza a presen?a de uma an?malia qu?ntica. Assim, uma simetria cl?ssica ? destruida dinamicamente por flutua??es qu?nticas. O nosso sistema f?sico se encontra na vizinhan?a de um Ponto Cr?tico Qu?ntico. Portanto, as excita??es fermi?nicas, que se situam pr?ximo a superf?cie de Fermi, decaem com o tempo, produzindo assim um amortecimento de Landau. Todos esses ingredientes de um regime de forte acoplamento devem ser levados em conta. E em fun??o disso calcularemos as corre??es de v?rtice e os efeitos das auto-energias, que dessa forma fazem com que os propagadores de uma part?cula da teoria dependam da frequ?ncia de uma forma n?o-trivial CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA
29	Corrélations quantiques : une approche de physique statistique / A quantum statistical approach to quantum correlations in many-body systems Frerot, Irénée 09 October 2017 (has links) La notion de cohérence, intimement liée à celle de dualité onde-corpuscule, joue un rôle central en mécanique quantique. Lorsque la cohérence quantique s'étend sur plusieurs particules au sein d'un système, la description en termes d'objets individuels devient impossible en raison des corrélations quantiques (ou intrication) qui se développent. Dans ce manuscrit, nous étudions les systèmes à l'équilibre, pour lesquels nous montrons que les fluctuations cohérentes viennent s'ajouter aux fluctuations prédites par des identités thermodynamiques valides pour les systèmes classiques. Au zéro absolu, les fluctuations cohérentes sont les seules à subsister, et nous étudions dans ce cas leur lien avec l'entropie d'intrication. Nous montrons en particulier qu'une hypothèse de température effective modulée spatialement rend compte de la structure de l'intrication au sein d'un système à N corps, et montrons comment cette température peut être extraite des corrélations usuelles. Nos résultats permettent par ailleurs une compréhension affinée des transitions de phase quantiques. Nous montrons par exemple que la transition entre un isolant de Mott bosonique et un superfluide donne lieu à une singularité de l'entropie d'intrication induite par les fluctuations d'amplitude de la phase du condensat. Nous identifions enfin une longueur de corrélation pilotant les lois d'échelles des fluctuations cohérentes au sein de l'éventail critique avoisinant une transition de phase quantique du second ordre, et proposons une ouverture vers les potentielles applications métrologiques de ces fluctuations cohérentes exceptionnellement fortes en nous appuyant sur l'exemple du modèle d'Ising. / The notion of coherence, intimately related to the notion of wave-particle duality, plays a central role in quantum mechanics. When quantum coherence extends over several particles inside a system, the description in terms of individual objects becomes impossible, due to the development of quantum correlations (or entanglement). In this manuscript, we focus on equilibrium systems, for which we show that coherent fluctuations add up to the fluctuations predicted by thermodynamic identities, valid for classical systems only. In the ground state, coherent fluctuations are the only ones to subsist, an in this case we study their relationship with entanglement entropy. We show in particular that an hypothesis of effective temperature, spatially modulated, captures the structure of entanglement in a many-body system, and we show how this temperature can be reconstructed from usual correlation functions. Our results also enable for a refined understanding of quantum phase transitions. We show in particular that the phase transition between a bosonic Mott insulator and a superfluid gives rise to a singularity of entanglement entropy induced by amplitude fluctuations of the phase of the condensate. We finally identify a coherence length governing the scaling behaviour of coherent fluctuations inside the quantum critical region in the finite-temperature vicinity of a quantum critical point, and open novel perspectives for the metrological advantage offered by the exceptional coherence which develops close to quantum critical points, based on the example of the quantum Ising model. Intrication quantique Correlations quantiques Transition de phase quantique Coherence quantique Interférences quantiques Systèmes à N corps Quantum Entanglement Quantum correlations Quantum phase transition Quantum coherence Quantum interference effects Many-body system
30	Sobre a dinâmica das colisões atômicas frias controladas em redes ópticas / On the dynamic of the cold atomic controlled collisions in optical lattices Farias, Reginaldo de Jesus Costa, 1978- 18 August 2018 (has links) Orientador: Marcos César de Oliveira / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-18T12:10:11Z (GMT). No. of bitstreams: 1 Farias_ReginaldodeJesusCosta_D.pdf: 4228413 bytes, checksum: 9e7ff892eed5441839ee091ddb080501 (MD5) Previous issue date: 2011 / Resumo: Partindo de uma derivação matemática do modelo de Bose-Hubbard, desenvolvemos os cálculo para o emaranhamento bi e multipartido, através da transição Isolante de Mott-superuida, entre os modos de uma rede óptica para as situações mais simples de dois, três e quatro átomos (N) depositados nestas com igual número de sítios M, ocasionando um fator de preenchimento ? = N=M unitário. Apresentamos uma investigação sobre o controle da dinâmica de um condensado de Bose-Einstein aprisionado em um poço duplo através da ação de um potencial externo dependente do tempo. Apresentamos também uma investigação preliminar de codificação e operações quânticas embasadas em colisões controladas entre átomos em múltiplos poços / Abstract: Starting from a mathematical derivation of the Bose-Hubbard Model (BHM) we analyze the developing of bipartite and multipartite entanglement through the Mott insulator-superuid quantum phase transition, among the modes of an optical lattice to the simplest situations of two, three and four atoms (N) deposited in such optical lattice with equal number of sites (M), where a filling factor ? = N=M = 1 per lattice site is considered. We present an investigation about the controlled dynamic of a Bose-Einstein condensate in a double well driven by an external time dependent potential. Beyond we present some preliminar notes on codi cations and quantum operations in cold controlled collisions among atoms in multiples wells / Doutorado / Física da Matéria Condensada / Doutor em Ciências Bose-Hubbard, Modelo de Emaranhamento de estados Colisões controladas Transição de fase quântica Bose-Hubbard model Entanglement of states Controlled collisions Quantum phase transition

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