Local Equilibrium States in Quantum Field Theory in Curved Spacetime / Lokale Gleichgewichtszustände in der Quantenfeldtheorie auf gekrümmter Raumzeit

Solveen, Christoph

11 April 2012

No description available.

530 Physik

RDI 500

RDI 640

RJG 200

Physics

lokales thermisches Gleichgewicht

local thermal equilibrium

Quantum Field Theory in Curved Spacetime

33.24

33.21

33.28

Cutting rules for Feynman diagrams at finite temperature.

Chowdhury, Usman

13 January 2010

The imaginary part of the retarded self energy is of particular interest as it contains a lot of physical information about particle interactions. In higher order loop diagrams the calculation become extremely tedious and if we have to do the same at finite temperature, it includes an extra dimension to the difficulty. In such a condition we require to switch between bases and select the best basis for a particular diagram. We have shown in our calculation that in higher order loop diagrams, at #12;finite temperature, the R/A basis is most convenient on summing over the internal vertices and very efficient on calculating some particular diagrams while the result is most easily interpretable in the Keldysh basis for most other complex diagrams.

Quantum Field Theory

Finite Temperature

Retarded/Advanced-basis

Keldysh-basis

Primary-basis

cutting-rules

circling

vertex

vertices

isolated

island

self-energy

Imaginary

retarded

The fuzzy horizon

Murugan, Anand

January 2007

The fuzzball model of a black hole is an attempt to resolve the many paradoxes and puzzles of black hole physics that have revealed themselves over the last century. These badly behaved solutions of general relativity have given physicists one of the few laboratories to test candidate quantum theories of gravity. Though little is known about exactly what lies beyond the event horizon, and what the ultimate fate of matter that falls in to a black hole is, we know a few intriguing and elegant semi-classical results that have kept physicists occupied. Among these are the known black hole entropy and the Hawking radiation process.

Μελέτη των υπερσυμμετρικών θεωριών Chern-Simons σε τρεις χωροχρονικές διαστάσεις / The study of supersymmetric Chern-Simons theories in three space-time dimensions

Βολιώτης, Δημήτριος

31 January 2013

Η παρούσα διπλωματική εργασία πραγματοποιήθηκε στο τμήμα Σωματιδιακής Φυσικής του Πανεπιστημίου Santiago de Compostela της Ισπανίας και αποτελεί τη μελέτη της υπερσυμμετρίας στις τρεις χωροχρονικές διαστάσεις. Έμφαση δίνεται σε θεωρίες που περιέχουν τον όρο Chern-Simons που παιζεί συμαντικό ρόλο στους τομείς έρευνας της θεωρητικής φυσικής. Αρχικά, εισάγουμε τις εισαγωγικές ένοιες της υπερσυμμετρίας στις τρεις διαστάσεις και ακολούθως μελέτουμε την Ν=1 ελάχιστη θεωρία με διάφορες φυσικές ποσότες που περιέχουν τον όρο Chern-Simons. Στην συνέχεια, μελετάμε τις ABJM θεωρίες και αποδεικνύουμε ότι είναι αναλλοίωτες κάτω από μετασχηματισμούς βαθμίδας. Τέλος υπολογίζουμε τις κβαντικές διορθώσεις στην διαταρακτική θεωρία Chern-Simons. / The present thesis took part in Department of Particle Physics of University of Santiago de Compostela, Spain, and is the study of supersymmetry in three spacetime dimensions. Emphasis is given to theories containing the Chern-Simons term that plays an important role in the research areas of theoretical physics. First, we introduce the notion of supersymmetry in three dimensions and then we study the N = 1 minimal theory with various physical quantitative containing the term Chern-Simons. Then, we study the ABJM theories and prove that they are invariant under gauge transformations. Finally we calculate the quantum corrections to the perturbative Chern-Simons theory.

Υπερσυμμετρία

Όρος Chern-Simons

Θεωρίες βαθμίδας

530.142 3

Supersymmetry

Quantum field theory

Topological field theory

Chern-Simons term

Gauge theories

Aspectos clássicos e quânticos de espinores de dinânima não-usual: espinores de dimenssão de massa um / Classical and quantum aspects of non-usual dynamic spinors: mass-dimension-one spinors

Rogério, Rodolfo José Bueno [UNESP]

14 September 2018

Submitted by Rodolfo José Bueno Rogério (rodolforogerio@gmail.com) on 2018-11-12T17:40:08Z No. of bitstreams: 1 Tese.pdf: 1544164 bytes, checksum: 89834185eb568c41263eb552802f9252 (MD5) / Approved for entry into archive by Pamella Benevides Gonçalves null (pamella@feg.unesp.br) on 2018-11-14T13:18:34Z (GMT) No. of bitstreams: 1 rogerio_rjb_dr_guara.pdf: 1544164 bytes, checksum: 89834185eb568c41263eb552802f9252 (MD5) / Made available in DSpace on 2018-11-14T13:18:34Z (GMT). No. of bitstreams: 1 rogerio_rjb_dr_guara.pdf: 1544164 bytes, checksum: 89834185eb568c41263eb552802f9252 (MD5) Previous issue date: 2018-09-14 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Na presente tese apresentaremos de forma detalhada o estudo sistemático de uma teoria quântica com férmions de dimensão de massa um que obedecem as estatísticas de Fermi-Dirac, abordando essencialmente sua construção, quantização do campo, análise dos observáveis físicos e aplicações quânticas. Forneceremos todos os detalhes de uma descoberta teórica inesperada da partícula de spin $1/2$ que compõe um conjunto completo de autoespinores com helicidade dual do operador conjugação de carga. Esses espinores recebem o nome de Elko, um acrônimo proveniente do Alemão \textit{Eigenspinoren des Ladungskonjugationsoperators}. Veremos que o elo entre os espaços de representação $(1/2, 0)$ e $(0, 1/2)$ não é dado pela simetria de paridade mas sim pela ``Mágica das matrizes de Pauli'', e, portanto, como consequência a dinâmica de tais campos será regida única e exclusivamente pela dinâmica de Klein-Gordon. Tal fato faz com que o propagador associado ao Elko guarde muita similaridade com o propagador do campo escalar. Intrinsicamente, em sua formulação embrionária, as somas de spin para o Elko mostram um termo que quebra explicitamente a covariância relativística, levando então à apreciação da \textit{Very Special Relativity}, que nada mais é do que um subgrupo do grupo de Lorentz, cuja álgebra deixa as somas de spin invariantes ou covariantes. Entretanto, mostraremos que existe uma liberdade na definição da estrutura dual, a qual permite que seja construída uma teoria local e invariante por transformações de Lorentz, levando, assim, a uma nova física bastante interessante e promissora. / The present thesis covers in details a systematic study of a quantum theory based on mass dimension one fermions which satisfy the Fermi-Dirac statistics, essentially addressing its construction, field quantization, analysis of physical observables and quantum applications. We provide all the details of an unexpected theoretical discovery of a spin 1/2 particle which composes a complete set of dual helicity spinors of the charge conjugation operator. Such spinors are called Elko, an acronym for the German word Eigenspinoren des Ladungskonjugationsoperators. We show that the relation between the representation spaces (1/2,0) and (0,1/2) is given by the “Magic of Pauli matrices” rather than parity symmetry, therefore, as a consequence the dynamic of such fields is governed solely and exclusively by the Klein-Gordon dynamic. Such fact makes the Elko propagator to be very similar to the scalar field propagator Intrinsically, in its embryonic formulation, Elko spin sums shows up a term that explicitly breaks relativistic covariance, leading to the appreciation of Very Special Relativity, a theory which is based on a subgroup of the Lorentz group, whose algebra leaves the spin sums invariant or covariant. However, we show a freedom in the dual structure definition, which allows the construction of a local and Lorentz invariant theory, thus, leading to a very interesting and promising new physics

Dimensão de massa um

Campo Quântico

Férmions

Conjugação de carga

Helicidade dual

Renormalização (Física)

Mass dimension one

Quantum field

Fermion

Charge conjugation

Dual helicity

Entanglement, boundaries and holography / Intrication, bords et holographie

Berthiere, Clément

20 December 2017

La notion d’entropie d’intrication a eu un profond impact sur la physique théorique, particulièrement depuis ces dix dernières années. D’abord introduite afin expliquer l’entropie des trous noirs, son champ d’application s’est par la suite ouvert à une grande variété de domaines de recherche, de la matière condensée à la gravitation quantique, de l’information quantique à la théorie quantique des champs. Dans ce contexte scientifique effervescent, l’entropie d’intrication apparait comme un outil central et doit donc intensivement être étudiée. A l’origine de cette thèse se trouve le désir de mieux comprendre cette entropie. D’intéressants développements concernant les effets de bord sur l’entropie d’intrication ont vu le jour récemment. Nous proposons donc d’explorer comment le bord d’un espace affecte l’entropie, en particulier dans la situation où la surface d’intrication intersecte ce bord. Nous présentons des calculs explicites de l’entropie d’intrication en espace plat avec bords. Nous montrons que des termes induits par ces bords apparaissent dans l’entropie et nous soulignons le rôle prépondérant que jouent les conditions aux bords. Nous étudions ensuite la contribution de bord dans le terme logarithmique de l’entropie d’intrication en dimensions trois et quatre. Nous calculons en premier lieu ce terme en théorie des champs pour la théorie N = 4 de Yang-Mills, puis nous répétons ce calcul de manière holographique. Nous montrons que ces deux méthodes de calcul donnent le même résultat, si du côté théorie des champs les conditions aux bords préservent la moitié de la supersymétrie et que du côté gravité l’extension du bord dans le bulk est une surface minimale. / The entanglement entropy has had a tremendous and profound impact on theoretical physics, particularly since the last decade. First introduced in an attempt to explain black holes entropy, it has then found applications in a wide range of research areas, from condensed matter physics to quantum gravity, from quantum information to quantum field theory. In this exciting scientific context, the entanglement entropy has thus emerged as a useful and pivotal tool, and as such justifies the need to be intensively studied. At the heart of this thesis therefore lies the desire to better understand the entanglement entropy. Interesting developments during the recent years concern the boundary effects on the entanglement entropy. This dissertation proposes to explore the question of how the presence of spacetime boundaries affects the entropy, specifically in situations where the entangling surface intersects these boundaries. We present explicit calculations of entanglement entropy in flat spacetime with plane boundaries. We show that boundary induced terms appear in the entropy and we emphasize the prominent role of the boundary conditions. We then study the boundary contribution to the logarithmic term in the entanglement entropy in three and four dimensions. We perform the field theoretic computation of this boundary term for the free N = 4 super-gauge multiplet and then repeat the same calculation holographically. We show that these two calculations are in agreement provided that on the field theory side one chooses the boundary conditions which preserve half of the full supersymmetry and that on the gravity side the extension of the boundary in the bulk is minimal.

Entropie d’intrication

Holographie

Conditions aux bords

Théorie quantique des champs

Anomalie conforme

Surface minimale

Supersymétrie

Entanglement entropy

Holography

Boundary conditions

Quantum field theory

Conformal anomaly

Minimal surface

Supersymmetry

Sir Arthur Eddington and the foundations of modern physics

Durham, Ian T.

January 2005

In this dissertation I analyze Sir Arthur Eddington's statistical theory as developed in the first six chapters of his posthumously published Fundamental Theory. In particular I look at the mathematical structure, philosophical implications, and relevancy to modern physics. This analysis is the only one of Fundamental Theory that compares it to modern quantum field theory and is the most comprehensive look at his statistical theory in four decades. Several major insights have been made in this analysis including the fact that he was able to derive Pauli's Exclusion Principle in part from Heisenberg's Uncertainty Principle. In addition the most profound general conclusion of this research is that Fundamental Theory is, in fact, an early quantum field theory, something that has never before been suggested. Contrary to the majority of historical reports and some comments by his contemporaries, this analysis shows that Eddington's later work is neither mystical nor was it that far from mainstream when it was published. My research reveals numerous profoundly deep ideas that were ahead of their time when Fundamental Theory was developed, but that have significant applicability at present. As such this analysis presents several important questions to be considered by modern philosophers of science, physicists, mathematicians, and historians. In addition it sheds new light on Eddington as a scientist and mathematician, in part indicating that his marginalization has been largely unwarranted.

Aspectos geométricos da molécula de fulereno em referenciais não-inerciais

Cavalcante, Everton

26 February 2015

Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-18T14:40:44Z No. of bitstreams: 1 arquivototal.pdf: 5994670 bytes, checksum: 2dd7a3577c0cc6ee44dd8eb7435dfaaf (MD5) / Made available in DSpace on 2017-09-18T14:40:44Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 5994670 bytes, checksum: 2dd7a3577c0cc6ee44dd8eb7435dfaaf (MD5) Previous issue date: 2015-02-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this thesis we study the dynamics of charge carriers, and the electronic properties, of the C60 fullerene molecule. Characterizing it by a geometric bias. In inertial reference systems and when we have your material under rotation content. Initially we discussed the scientific advent of carbon allotropes, and the importance of modelling its derivates at low energies. We show that at low energies, the graphene - the two-dimensional carbon allotrope form - can be described for a non-massive theory of free fermions. At a second moment, we extended the nonmassive free fermions theory for the C60 molecule. Assuming the hexagonal graphene network can be entered in fullerene when we introduce topological defects. A brief study of topological defects in condensed matter was done. And soon after, we made a description these defects via a non-Euclidean geometry. Showing how the charge carriers in the network see the defects like gauge fields. Then we began to expose the results of this thesis. First we assume the fullerene by a two-dimensional spherical metric with defects, containing a fictitious t’Hooft-Polyakov monopole in its center. TheC60 is still subjected to the action of an Aharonov-Bohm flux arising of a magnetic wire running through its poles. So we get the spectrum, and the prediction of a persistent current in the molecule. Finally we return to the analysis of the molecule, now with your content of matter under rotation. For this, we studied a metric Gödel-type with spherical symmetry. We discussed the problem of causality and obtain the spectrum and the persistent current in terms of the vorticity (W) of spacetime. / Nesta tese estudamos a dinâmica de portadores de carga, e as propriedades eletrônicas, na molécula de fulerenoC60. Caracterizando-a por um viés geométrico. Tanto em sistemas de referência inercial, como quando temos seu conteúdo de matéria sob rotação. Inicialmente abordamos o advento científico das formas alotrópicas do carbono e a importância da modelagem a baixas energias dos seus derivados. Onde mostramos que no limite de baixas energias, o grafeno - que trata-se da forma alótropica bidimensional do carbono - pode ser descrito por uma teoria de férmions livres sem massa. Num segundo momento estendemos a teoria de férmions não massivos para a molécula de C60. Assumindo que a rede hexagonal do grafeno pode inscrever o C60 ao introduzirmos alguns defeitos topológicos. Um breve estudo sobre os defeitos topológicos na matéria condensada foi feito. Onde, logo em seguida, partimos para uma descrição de tais defeitos via uma geometria não-euclidiana. Mostrando como os portadores de carga no meio enxergam os defeitos como campos de gauge. Em seguida começamos a expor os resultados desta tese. Primeiramente assumimos tratar o fulereno por uma métrica de uma esfera bidimensional com defeitos, e contendo um monopolo de t’Hooft-Polyakov fictício em seu centro. O C60 é ainda submetido a ação de um fluxo de Aharonov-Bohm advindo de uma corda magnética quiral transpassando seus polos. Obtemos assim o espectro e a predição de uma corrente persistente na molécula. Por fim retomamos a análise da molécula, agora com seu conteúdo de matéria sob rotação. Para isso assumimos tratar o fulereno por uma métrica do tipo Gödel com simetria esférica. Discutimos o problema da causalidade e obtemos espectro e corrente persistente em termos da vorticidade (W) do espaço-tempo.

Defeitos Topológicos

Fulereno

Espaço-Tempo do tipo-Gödel

Topological Defects

Fullerene

Quantum Field Theory in Curved Spaces

Gödeltype Space-Times

CIENCIAS EXATAS E DA TERRA::FISICA

Setor eletrofraco fortemente acoplado na escala TeV: teoria e fenomenologia no LHC. / TeV scale strongly coupled electro weak sector: theory and phenomenology at the LHC.

Eduardo Roberto De Lascio

23 September 2011

Esta tese apresenta estudos sobre uma possível extensão do Modelo Padrão, suas características teóricas e fenomenológicas. São estudados aspectos do Modelo Padrão relevantes para a análise do setor eletrofraco. Motivado pela solução do problema da hierarquia, é introduzido um espaço de cinco dimensões, com a quinta dimensão curva e compactificada em orbifold. Neste espaço são analisados campos escalares, espinoriais e vetoriais, exibindo modos excitados, os chamados modos de Kaluza-Klein. É incluída uma quarta geração de férmions, sendo então possível obter um setor eletrofraco fortemente acoplado na escala TeV, com a condensação de quarks. Este mecanismo é consequência de acoplamentos não universais com o primeiro modo de Kaluza-Klein do glúon, acoplamentos mais intensos com a quarta geração de quarks. É feita a determinação dos parâmetros dos quarks no espaço de cinco dimensões, resultando no setor de quarks do Modelo Padrão como limite da teoria a baixas energias. A análise teórica termina com a determinação dos acoplamentos dos quarks com o primeiro modo de Kaluza-Klein do glúon. Valendo-se da propriedade de o primeiro modo excitado do glúon trocar sabor, mesmo sendo uma partícula neutra, um estudo fenomenológico é realizado, mostrando que é possível observar eventos no LHC que indicam haver o setor fortemente acoplado, mediante a aplicação dos cortes descritos neste trabalho. / This thesis presents studies concerning a possible extension of the Standard Model, its theoretical and phenomenological characteristics. Aspects of the Standard Model that are relevant for the analysis of the electroweak sector are studied. In order to solve the hierarchy problem, a space with ve dimensions is introduced, with the fth dimension curved and compactied in orbifold. Within this space scalar, spinorial and vectorial elds are analysed, showing excited modes, the so-called Kaluza-Klein modes. A fourth generation of fermions is included, which makes it possible to obtain a strongly coupled electroweak sector at the TeV scale, with quarks condensation. This mechanism is possible due to non-universal couplings with the rst Kaluza-Klein mode of the gluon, couplings which are stronger with the fourth generation quarks. The quarks parameters in the ve-dimensional space are determined, leading to the quark sector of the Standard Model as a low energy limit of the theory. The theoretical analysis is nished by the determination of the quarks couplings with the rst Kaluza-Klein mode of the gluon. Using the property of avor exchange by the gluon, even this being a neutral particle, a phenomenological study is carried out, showing that is possible to observe events at the LHC that indicate the existence of the strongly coupled sector, by means of the use of the cuts described in this work.

Física de alta energia

Física de partículas

Física teórica

Teoria quântica de campo.

Teoria quântica relativística

High energy physics

Particle physics

Quantum field theory.

Relativistic quantum theory

Theorical physics

Os teoremas de singularidade valem se considerarmos efeitos quânticos? / Do Singularity Theorems hold if we consider quantum effects?

Lissa de Souza Campos

11 October 2018

Há duas brechas quânticas nos Teoremas da Singularidade em Relatividade Geral: violações das condições clássicas de energia e flutuações quânticas da geometria do espaço-tempo. Nesta dissertação, estudamos a primeira brecha e abordamos os Teoremas da Singularidade através da condição de energia. Revisamos a abordagem algébrica de Teoria Quântica de Campos para o campo de Klein-Gordon e, neste formalismo, revisamos a derivação de uma desigualdade quântica de energia para os estados de Hadamard em espaços-tempos globalmente hiperbólicos. Apesar das desigualdades quânticas de energia não poderem ser aplicadas diretamente nos Teoremas de Singularidade, mostramos que generalizações dos Teoremas de Hawking e Penrose são provadas considerando condições de energia enfraquecidas inspiradas por elas. Assim sendo, os Teoremas de Singularidade continuam valendo se considerarmos efeitos quânticos sutis. A questão de se efeitos de interação ou efeitos de ``backreaction\'\' poderiam quebrá-los ainda está em aberto; há razões para se esperar ambas as respostas. / There are two quantum loopholes in the Singularity Theorems of General Relativity: violations of the classical energy conditions and quantum fluctuations of the spacetime geometry. In this dissertation, we study the first loophole and approach Singularity Theorems through the energy condition. We review the algebraic approach of Quantum Field Theory for the Klein-Gordon field and, within it, we review the derivation of a quantum energy inequality for Hadamard states on globally hyperbolic spacetimes. However quantum energy inequalities cannot be directly applied to Singularity Theorems, we show that generalized Hawking and Penrose Theorems are proven considering weakened energy conditions inspired by them. Hence, Singularity Theorems do hold under subtle quantum effects. The question of whether interaction or backreaction effects could break them is still open; there are reasons to expect both answers.