Proměny mediální prezentace násilných sexuálních praktik v letech 1990 - 2011 jako obraz posunu sociálních norem v sexuální oblasti / Changes in media presentations of violet sexual practices in the years 1990-2011 as shift of social norms in the sexual matters

Endrychová, Ivana

January 2015

This Master's degree thesis evaluates the change in medial presentation of violet sexual acts in the period between 1996 and 2011. The change is inspected using newspaper articles gathered from the Newton Media Search database. Theoretical work is based on the Theory of Construction of Social Reality and the Mechanism of News Construction (gatekeeping, agenda setting, news values and framing). The analysis was performed on 937 articles published in the period from 1996 to 2011. The change of discourse was nalaysed using two-phase research method. This discourse was evaluated based on many criteria, among them periodicity of articles that focus on violent sexual pratcics. Qualitative analysis was used for trimming the number of relevant articles with hypothesis futher evaluated using quantitative discourse analysis. Powered by TCPDF (www.tcpdf.org)

Mission Concept for a Satellite Mission to Test Special Relativity

Anadol, Volkan

January 2016

In 1905 Albert Einstein developed the theory of Special Relativity. This theory describes the relation between space and time and revolutionized the understanding of the universe. While the concept is generally accepted new experimental setups are constantly being developed to challenge the theory, but so far no contradictions have been found. One of the postulates Einsteins theory of Relativity is based on states that the speed of light in vacuum is the highest possible velocity. Furthermore, it is demanded that the speed of light is independent of any chosen frame of reference. If an experiment would find a contradiction of these demands, the theory as such would have to be revised. To challenge the constancy of the speed of light the socalled Kennedy Thorndike experiment has been developed. A possible setup to conduct a Kennedy Thorndike experiment consists of comparing two independent clocks. Likewise experiments have been executed in laboratory environments. Within the scope of this work, the orbital requirements for the first space-based Kennedy Thorndike experiment called BOOST will be investigated.BOOST consists of an iodine clock, which serves as a time reference, and an optical cavity, which serves as a length reference. The mechanisms of the two clocks are different and can therefore be employed to investigate possible deviations in the speed of light. While similar experiments have been performed on Earth, space offers many advantages for the setup. First, one orbit takes roughly 90 min for a satellite based experiment. In comparison with the 24 h duration on Earth it is obvious that a space-based experiment offers higher statistics. Additionally the optical clock stability has to be kept for shorter periods, increasing the sensitivity. Third, the velocity of the experimental setup is larger. This results in an increased experiment accuracy since any deviation in the speed of light would increase with increasing orbital velocity. A satellite planted in a Low Earth Orbit (LEO) travels with a velocity of roughly 7 km/s. Establishing an Earth-bound experiment that travels with a constant velocity of that order is impossible. Finally, space offers a very quiet environment where no disturbances, such as vibrations, act upon the experiment, which is practically unavoidable in a laboratory environment. This thesis includes two main chapters. The chapter titled "Mission Level" exploits orbital candidates. Here, possible orbits are explained in detail and the associated advantages and problems are investigated. It also contains a discussion about ground visibility and downlink feasibility for each option. Finally, a nominal mission scenario is sketched. The other chapter is called "Sub-Systems". Within this chapter the subsystems of the spacecraft are examined. To examine the possible orbits it is necessary to define criteria according to which the quality of the orbits can be determined. The first criterion reflects upon the scientific outcome of the mission. This is mainly governed by the achievable velocity and the orbital geometry. The second criterion discriminates according to the mission costs. These include the launch, orbital injection, de-orbiting, satellite development, and orbital maintenance. The final criteria defines the requirements in terms of mission feasibility and risks, e.g. radiation. The criteria definition is followed by explaining the mission objectives and requirements. Each requirement is then discussed in terms of feasibility. The most important parameters, such as altitude, inclination, and the right ascension of the ascending node (RAAN), are discussed for each orbital option and an optimal range is picked. The optimal altitude depends on several factors, such as the decay rate, radiation concerns, experimental contributions, and eclipse duration. For the presented mission an altitude of 600 km seems to be the best fit. Alongside the optimal altitude possible de-orbiting scenarios are investigated. It is concluded that de-orbiting of the satellite is possible without any further external influence. Thus, no additional thrusters are required to de-orbit the satellite. The de-orbiting scenario has been simulated with systems tool kit (STK). From the simulation it can be concluded, that the satellite can be deorbited within 25 years. This estimation meets the requirements set for the mission. Another very important parameter is the accumulative eclipse duration per year for a given orbit. For this calculation it is necessary to know the relative positions and motion of the Earth and the Sun. From this the eclipse duration per orbit for different altitudes is gained. Ground visibilities for orbital options are examined for two possible ground stations. The theory is based on the geometrical relation between the satellite and the ground stations. The results are in an agreement with the related STK simulations. Finally, both ground stations are found adequate to maintain the necessary contact between the satellite and the ground station. In the trade-off section, orbit candidates are examined in more detail. Results from the previous sections with some additional issues such as the experiment sensitivities, radiation concern and thermal stability are discussed to conclude which candidate is the best for the mission. As a result of the trade-off, two scenarios are explained in the "Nominal Mission Scenario" section which covers a baseline scenario and a secondary scenario. After selecting a baseline orbit, two sub-systems of the satellite are examined. In the section of "Attitude Control System (ACS)" where the question of "Which attitude control method is more suitable for the mission?" is tried to be answered. A trade-off among two common control methods those are 3-axis stabilization and spin stabilization is made. For making the trade-off possible external disturbances in space are estimated for two imaginary satellite bodies. Then, it is concluded that by a spin stabilization method maintaining the attitude is not feasible. Thus, the ACS should be built on the method of 3-axis stabilization. As the second sub-system the possible power system of the satellite is examined. The total size and the weight of the solar arrays are estimated for two different power loads. Then, the battery capacity which will be sufficient for the power system budget is estimated together with the total mass of the batteries. In the last section, a conclusion of the thesis work is made and the possible future works for the BOOST mission are stated.

BOOST

Special Relativity

Kennedy Thorndike

Eclipse duration

Ground visibility

Downlink feasibility

3-axis stabilization

Spin stabilized satellite

Solar array estimation

Battery size estimation.

Géométrie quantique dans les mousses de Spins : de la théorie topologique BF vers la relativité générale / Quantum geometry in Spin foams : from the topological BF theory towards general relativity

Bonzom, Valentin

23 September 2010

La gravité quantique à boucles a fourni un cadre d’étude particulièrement bien adapté aux théories de jauge définies sans métrique fixe et invariante sous difféomorphismes. Les excitations fondamentales de cette quantification sont appelées réseaux de spins, et dans le contexte de la relativité générale donnent un sens à la géométrie quantique au niveau canonique. Les mousses de spins constituent une sorte d’intégrale de chemins adaptée aux réseaux de spins, et donc destinée à permettre le calcul des amplitudes de transition entre ces états. Cette quantification est particulièrement efficace pour les théories des champs topologiques, comme Yang-Mills 2d, la gravité 3d ou les théories BF, et des modèles ont aussi été proposés pour la gravité quantique en dimension 4.Nous discutons dans cette thèse différentes méthodes pour l’étude des modèles de mousses de spins.Nous présentons en particulier des relations de récurrence sur les amplitudes de mousses de spins. De manière générique, elles codent des symétries classiques au niveau quantique, et sont susceptible de permettre de faire le lien avec les contraintes hamiltoniennes. De telles relations s’interprètent naturellement en termes de déformations élémentaires sur des structures géométriques discrètes, telles que simplicielles. Une autre méthode intéressante consiste à explorer la façon dont on peut réécrire les modèles de mousses de spins comme des intégrales de chemins pour des systèmes de géométries sur réseau, en s’inspirant à la fois des modèles topologiques et du calcul de Regge. Cela aboutit à une vision très géométrique des modèles, et fournit des actions classiques sur réseau dont on étudie les points stationnaires. / Loop quantum gravity has provided us with a canonical framework especially devised for back-ground independent and diffeomorphism invariant gauge field theories. In this quantization the funda-mental excitations are called spin network states, and in the context of general relativity, they give ameaning to quantum geometry. Spin foams are a sort of path integral for spin network states, supposed to enable the computations of transition amplitudes between these states. The spin foam quantization has proved very efficient for topological field theories, like 2d Yang-Mills, 3d gravity or BF theories. Different models have also been proposed for 4-dimensional quantum gravity.In this PhD manuscript, I discuss several methods to study spin foam models. In particular, I present some recurrence relations on spin foam amplitudes, which generically encode classical symme-tries at the quantum level, and are likely to help fill the gap with the Hamiltonian constraints. These relations can be naturally interpreted in terms of elementary deformations of discrete geometric struc-tures, like simplicial geometries. Another interesting method consists in exploring the way spin foam models can be written as path integrals for systems of geometries on a lattice, taking inspiration from topological models and Regge calculus. This leads to a very geometric view on spin foams, and gives classical action principles which are studied in details.

Relativité générale

Théorie des champs topologiques

Gravité quantique

Mousse de spins

Réseaux de spins

General relativity

Topological field theory

Quantum gravity

Spin networks

Spin foams

Black holes as a gateway to the quantum : classical and semi-classical explorations / Les trous noirs comme porte d'entrée vers le quantique : explorations classique et semi-classique

De Lorenzo, Tommaso

18 September 2018

Depuis 1916, l'étude des Trous Noirs a soulevé des questions intrigantes. Seulement certaines ont été résolues. En effet, nous faisons face à des régimes où s’entremêlent la théorie quantique et l'espace-temps. Les TN comme porte d'entrée pour comprendre la nature quantique de la gravité. Ma thèse a été entièrement dédiée à ce domaine central de la physique théorique, avec pour but la compréhension la plus large possible des débats autour de ces questions. C'est ainsi qu'ont été produits des résultats originaux qui constituent le cœur de ce manuscrit. 1-Les surfaces de volume maximal des TN sont étudiées. Un TN astrophysique terminera sa vie avec une aire planckienne de $10^{-70} m^2$ dissimulant $10^5$ fois le volume de l'univers observable. Ceci peut avoir des conséquences sur la viabilité du "remnant scenario" comme solution au paradoxe de l'information. 2-Le scénario "trou-noir-trou-blanc" est fortement instable. Une modification minimale est proposée pour résoudre ce problème. 3-Une généralisation des quatre lois de la thermodynamique des TN est démontrée pour des cônes de lumière s'intersectant dans un espace de Minkowski. 4-On étudie des espaces conformellement plats où de telles lois acquièrent une interprétation thermodynamique standard. Le plus simple est l'espace-temps de Bertotti-Robinson, connu pour encoder la géométrie proche de l'horizon d'un TN chargé. 5-Pour peu que le bon tenseur énergie-impulsion soit identifié, les équations du champ Einstein-Cartan peuvent être retrouvées comme l'équation d'état d'un équilibre thermodynamique, comme dans le cas original de la RG. Ces résultats contribuent au débat intense sur les questions cruciales posées ci-dessus. / Since 1916 intriguing questions have arisen from the study of Black Holes (BH). Only some of them have been resolved. Indeed, we are faced with regimes where the yet unknown interplay between quantum theory and spacetime unveils. BH physics is a gateway to the quantum nature of gravity. My thesis has been completely devoted to this central domain of theoretical physics, with the guiding aim of understanding in the widest possible manner the debate around those questions. The process has produced original results that constitute the main core of the manuscript. 1- The maximal volume surfaces of evaporating BHs are studied. An astrophysical BH will end its life with an external planckian area $10^{-70} m^2$ hiding $10^5$ times the volume of our observable Universe. This can have consequences on the viability of the “remnant scenario” as solution to the BH information paradox. 2- The “black-hole-to-white-hole scenario” is analyzed. The model is shown to be strongly unstable, and a minimal resolutive modification is proposed. 3- A generalisation of the four laws of BH thermodynamics is proven for intersecting light cones in Minkowski spacetime. 4- Conformally flat spaces where such laws acquire the standard thermodynamical interpretation are studied. The simplest one is the Bertotti-Robinson spacetime, known to encode the near-horizon geometry of a charged BH. 5- It is shown that, if the correct energy-momentum tensor is identified, the Eintein-Cartan’s field equations can be recovered as a thermodynamical equilibrium equation of state just like in the GR original case. Such results contribute to the intense debate on the opening crucial questions.

Trous noirs

Gravité

Relativité generale

Black holes

Gravity

General Relativity

Quantum field theory in curved spacetime

530

Núcleos de galáxias ativos: propriedades em escalas de parsec e kilo-parsec / Active galactic nuclei: properties at parsec and kilo-parsec scales

Teixeira, Danilo Morales

27 January 2015

Neste trabalho estudamos a dinâmica de discos torcidos finos e espessos para compreender melhor a propagação da deformação nestes discos. No caso dos discos finos, estudamos a física do efeito Bardeen-Petterson e aplicamos este modelo para explicar o jato em escalas de parsec e kilo-parsec da galáxia NGC 1275. Encotramos que o efeito Bardeen-Petterson reproduziu muito bem a forma do jato e com isto derivamos os parâmetros do disco como raio, valores das viscosidades azimutal e vertical, lei de potência da densidade superficial e spin do buraco negro. Para uma melhor compreensão da física destes discos, realizamos simulações GRMHD de discos moderadamente finos tanto planos como inclinados para estudar a evolução do ângulo de inclinação entre os momentos angular do buraco negro e do disco de acresção assim como o ângulo de torção que está associado com a precessão do disco. Encontramos que quando o disco de acresção e o buraco negro rotacionam no mesmo sentido, o ângulo de inclinação entre os momentos angular apresentou um comportamento oscilatório na parte interna do disco e permaneceu constante na parte externa em acordo com as previsões teóricas. Já quando o buraco negro rotacina no sentido oposto ao disco de acresção, encontramos pela primeira vez numa simulação GRMHD evidências de alinhamento, ocorrendo um alinhamento de 10\\% do angulo entre os momentos angulares do disco e buraco negro. Além disso, comprovamos pela primeira vez numa simulação GRMHD a não isotropia do stress. Utilizando um modelo semi-analítico, comparamos os resultados de nossas simulações com este modelo, utilizando os dados da simulações de disco plano como entrada e obitivemos os mesmos comportamentos das simulações tanto no caso prógrado quanto no caso retrógrado mostrando que o alinhamento é devido ao regime onda. / In this work we studied the dynamics of twisted thin and thick disks to better understand how the warp propagates in these discs. In the case of thin discs, we studied the physics of the Bardeen-Petterson effect and we applied this model to explain the shape of the jet in both parsec and kilo-parsec scales of the galaxy NGC 1275. We found that the Bardeen-Petterson effect could explain very well the shape of the jet and with that we derived the disc parameters such as its radius, the values of the kinematic azimutal and vertical viscosities, the power-law of the surface density and the spin of the black hole. To better understand the physics of such discs, we have performed GRMHD simulations of moderatelly thin tilted disks to study the evolution of the tilt angle between the angular momentum of the accretion disk and black hole and also the twist angle which is associated with the precession of the disc. We found that when the accretion disc and the black hole are rotating in the same direction, the tilt angle showed an oscillatory behavior in the inner parts of the disk while in the outer parts it remained constant in agreement with the theorical modelos. However, when both rotate in the opposite direction, we found for the very first time in a GRMHD simulation, evidences of alignment of 10\\% of the tilt angle. Besides that, we prove for the first time in a GRMHD simulation that the stress is far from being isotropic. Using a semi-analitic model, we compared the results of our simulations with this model, using the datas of the untilted simulations as inputs and we found the same behaviors found in the simulations even in prograde case as in the retrograde case showing that the alignment is due to bending waves.

accretion disks

active galactic nuclei

AGNs

black holes

buracos negros

discos de acresção

general relativity

GRMHD

GRMHD

núcleos de galáxias ativos

relatividade geral

Interpretando a relatividade especial: discutindo o debate realismo e antirrealismo científicos no ensino de ciências / Interpreting the Special Relativity: Discussing Scientific Realism Antirealism Debate in the Science Teaching

Moreira, André Batista Noronha

20 February 2014

Neste trabalho investigamos, teoricamente e empiricamente, quais são os possíveis aspectos da natureza da ciência, relacionados ao debate realismo e antirrealismo científicos, que emergem da história e filosofia da teoria da relatividade especial e têm potencial para promover debates no ensino de física. Para tal, primeiramente reconhecemos a importância da aproximação histórico-filosófica ao ensino de ciências, assim como a relevância dos aspectos consensuais e não consensuais da natureza da ciência. Argumentamos, em especial, que estes aspectos controversos e não consensuais podem trazer uma visão ainda mais rica e realista da ciência. Fazemos uma exposição sintética sobre algumas das principais características do debate realismo e antirrealismo científicos, suas principais vertentes, categorias e argumentos correntes. Fazemos também um estudo teórico histórico e filosófico sobre a teoria da relatividade, no qual enfatizamos a capacidade do formalismo matemático da teoria ser filosoficamente interpretável. Quatro interpretações históricas da teoria, a de Lorentz (1904), a de Einstein (1905), a de Poincaré (1906) e a de Minkowski (1907) são discutidas e caracterizadas com base no estudo sobre o debate realismo e antirrealismo científicos. Descrevemos em seguida uma pesquisa de campo realizada no primeiro semestre de 2013 aplicada a estudantes de física, de licenciatura e bacharelado, da Universidade de São Paulo. Seus objetivos foram investigar as concepções filosóficas dos estudantes sobre o debate realismo e antirrealismo científicos no contexto da teoria da relatividade especial e mostrar como ele pode trazer ricas discussões no ensino de ciências . A pesquisa foi dividida em três etapas: aplicação de questionário específico sobre o tema filosófico; análise de resenhas entregues pelos estudantes, e; realização de grupo focal. O resultado da análise e triangulação dos dados sugere que o debate mostra-se, também entre os estudantes, de uma forma não consensual e filosoficamente rica. / In this work we investigate theoretically and empirically some possible aspects of the nature of science, related to scientific realism and anti-realism debate emerging from the history and philosophy of the special theory of relativity which can potentially encourage related discussions in physics education. For such, first we acknowledge the importance of historical-philosophical approach to teaching science, as well the educational relevance of the consensual and nonconsensual aspects of nature of science. We argue, particularly, that these controversial and non-consensual aspects can provide an even richer and more realistic view of science. We make a summary of some of the main features of scientific realism and anti-realism debate, its main categories and current arguments. We also make a historical and philosophical theoretical study on the special theory of relativity, wherein we emphasize the capacity of its mathematical formalism be philosophically interpretable. Four historical interpretations of the theory, Lorentz\'s (1904), Einstein\'s (1905), Poincaré\'s (1906) Minkowski\'s (1907), are discussed and characterized based on earlier study on scientific realism and anti-realism debate. We report then a field research conducted in the first semester of 2013 applied to undergraduated physics students at the University of São Paulo. Its objectives went to investigate the philosophical conceptions of students about scientific realism and anti-realism debate under the special theory of relativity and its subjects, and to show how rich can it be for science education. This research was divided into three stages: the application of a specific questionnaire on the philosophical subject; the analysis of papers submitted by students, and; the performing of a focus group. The outcome of data triangulation suggests that the debate reveals itself also among students, in a non-consensual and philosophically rich way.

Ensino de ciências

Ensino de relatividade especial

História e filosofia da ciência

History and philosophy of science

Nature of science

Natureza da ciência

Realism and anti-realism

Realismo e antirrealismo

Science teaching

Teaching of special relativity

Estrutura didática baseada em fluxo: relatividade restrita para o ensino médio / Didactical structure based on Flow: Special Relativity for High School

Nicolau Júnior, Jorge Luiz

03 October 2014

O presente trabalho conceitualiza e aplica da noção de \"fluxo\" como a parte da intenção didática relacionada com a qualidade das transições entre atividades de uma sequência didática. O fluxo foi empregado como protoprincípio central no desenvolvimento de um curso sobre Relatividade Restrita para o Ensino Médio com base na metodologia Design-Based Research (DBR). A dinâmica de trabalho contou com a participação de pesquisadores e professores da Rede Pública do Estado de São Paulo. Reuniões de discussão, produção e aplicações da sequência didática foram organizadas conjuntamente pelo Núcleo de Pesquisas em Inovação Curricular (NuPIC) e pelo, então formado, Grupo de Atualização da Física Escolar (GrAFiE). Como resultado da pesquisa foi apresentada a comparação entre o fluxo pretendido e a fluência observada pelos alunos. Uma pesquisa auxiliar sobre a compreensão do conceito de evento também é construída e complementa os resultados obtidos. Com vistas na generalização proposta pelos pesquisadores nessa área, são apresentados o protoprincípio de fluxo como potencial motor para o desenvolvimento de sequências didáticas, o diagrama de fluxo como representação prática das intenções dos desenvolvedores e o instrumento de fluxo como método para a produção de dados. Esses elementos foram testados em um ciclo de pesquisas e são destinados ao emprego em outras sequências didáticas. / The present work conceptualizes and applies the concept of \"flow\" as part of the didactic intention related to the quality of transitions between activities of a design experiment. The flow was used as the central protoprinciple in the developiment of a course on Special Relativity for high school based on a Design-Based Research (DBR) methodology. The work has involved the participation of researchers and public school teachers of the State of Sao Paulo, Brazil. Meetings, production and didactic interventions were collectively organized. The comparison between the desired flow and fluency observed by the students was analyzed as a result of the research. An auxiliary research on the understanding on the concept of event is also constructed and complements the research. Looking forward the generalization proposed by researchers in this area, the protoprinciple of the flow was presented as a potential idea for the development of didactic sequences. The flow\'s diagram was presented as a practical representation of the intentions of the developers and the flow instrument has shown as a method for producing data. These elements were tested in a cycle of research and are intended for use in other design experiments.

Design-Based Research

Ensino e aprendizagem

Física - Estudo e ensino

Física Moderna

Material didático

Modern Physics

Prática de ensino

Relatividade (Física)

Special Relativity

Teaching Pratice

Teaching-Learning Sequence

A matriz S em teoria quântica de campos em espaços curvos / The S-Matrix for Quantum Field Theory in Curved Space-times

Villaverde-Custódio, Felipe Augusto

13 April 2012

O objeto de estudo desta dissertação é o efeito de criação de partículas pela curvatura sob o escopo de uma teoria de espalhamento, discutindo quando que a interpretação a partir de uma matriz S é tangível e obtendo sua expressão nesses casos. O capítulo de introdução aborda superficialmente conceitos de relatividade geral e de teoria quântica de campos em espaços planos e curvos, necessários para a construção da matriz S. O conteúdo deste capítulo segue as apresentações feitas por Wald, Parker e Birrell em geral, tendo como guia as obras de Bar, Wald e Hawking no que se trata especificamente de relatividade geral, e de Penrose e Rindler no que se trata da estrutura espinorial. A construção da matriz S se dá no capítulo 2, tendo como guia o trabalho de Wald. O capítulo 3 apresenta exemplos que permitem a contextualização da criação de partículas em casos específicos de espaços-tempos em expansão. Este estudo nos permite verificar que as condições que precisam ser satisfeitas em um espaço-tempo globalmente hiperbólico e assintoticamente estacionário para que a formulação da matriz S possa ser feita são que as teorias no passado e futuro distantes devem ser unitariamente equivalentes, que a relação entre as regiões se dá através de transformações de Bogolyubov dadas por operadores limitados definidos em toda a parte e que tais operadores satisfaçam a condição de Hilbert-Schmidt. Nestes casos obtemos uma expressão para a matriz $S$ que descreve a criação de partículas pela curvatura do espaço-tempo para o campo de Klein-Gordon e de Dirac, além de outras relações úteis, como número médio de partículas criadas e probabilidade de se encontrar partículas em determinado modo, o que permite uma analogia com a radiação de corpo negro, passo fundamental para se entender fenômenos de grande interesse na física, como a radiação de Hawking e a criação de partículas no período inflacionário. / This master\'s thesis deals with the effect of particle creation by the curvature of space-time according to the point of view of scattering theory, discussing when such interpretation is possible by means of an S-matrix and obtaining its expression in those cases. The first chapter treats, superficially, some concepts of general relativity and quantum field theory in plane and curved space-times that are imperative to understand the construction of the S-matrix. The subject of this chapter is covered in the work of Wald, Parker, and Birrell, and follows closely the work of Bar, Wald and Hawking, when treats concepts specifically from general relativity, and from Penrose and Rindler, when talking about the spinor structure of space-time. The construction of the S-matrix is made in the second chapter, along the lines of the work of Wald. The third chapter presents some examples that bring some light on the creation of particles in specific cases of expanding space-times. This study let us verify that an S-matrix formulation is tenable, on globally hyperbolic asymptotic stationary curved space-times, if both quantum theories in the distant past and distant future are unitary equivalent, the relation of both regions is made by Bogolyubov transformations by means of everywhere defined bounded operators and that those operators satisfy the Hilbert-Schmidt condition. In those cases we derive the expression of the S-matrix for the Klein-Gordon and Dirac fields. Also we obtain the number of particles created and the probability of find particles in a particular mode, with let one make an analogy with the black body radiation, which is a fundamental step in the direction of understanding interesting phenomena in quantum field theory in curved space-times, like the Hawking radiation and particle creation in the early universe.

Curved Spaces

Espaços Curvos

General Relativity

Matriz S

Quantum Field Theory

Relatividade Geral

S-matrix

Scattering theory

Teoria de Espalhamento

Teoria Quântica de Campos

A emergência da hipótese do Relativismo Linguístico em Edward Sapir (1884-1939) / The emergence of the hypothesis of linguistic relativity in Edward Sapir (1884-1939)

Cunha, Adan Phelipe

22 February 2013

Esta dissertação teve por objeto delinear alguns fatores relativos ao processo de emergência da leitura dos trabalhos do linguista e antropólogo norte-americano Edward Sapir (1884-1939) como um dos proponentes de um conjunto de afirmações acerca da natureza das línguas naturais, agrupadas sob o rótulo relativismo linguístico, cujo debate recebeu bastante atenção dos antropólogos linguistas estadunidenses, na primeira metade do século XX. Costuma-se afirmar que o relativismo linguístico seja uma hipótese, que alega que a língua pode moldar a percepção da realidade, o pensamento ou a cultura. Visto o nome de Sapir estar associado ao de Whorf, como o rótulo hipótese Sapir-Whorf indica, e que este rótulo tem sido bastante utilizado atualmente para se referir ao relativismo linguístico, efetuou-se o rastreamento de alguns conceitos fundamentais nesta discussão, dentro do quadro teórico proposto por Sapir, tal como suas concepções acerca da língua, da cultura e do pensamento, com vistas a avaliar a procedência de sua recepção como um relativista. Havido sido este trabalho conduzido sob a metodologia da Historiografia Linguística, buscamos também resgatar os fatores contextuais nos quais tais proposições teóricas emanaram. Por fim, propomos a discussão da configuração do termo relativismo no horizonte teórico do autor, visando fornecer uma perspectiva de leitura diferente da proposta, atualmente, por inúmeros manuais de História da Linguística. / This dissertation had as its objective to outline some factors related to the emergence process of reading the American anthropologist and linguist Edward Sapirs (1884- 1939) papers as one of the proponents of a set of assertions about the nature of natural languages, grouped under the label linguistic relativity, whose debate received much attention from American linguistic anthropologists, during the first half of the twentieth century. It is often said that the linguistic relativity is a hypothesis, which argues that language can shape the perception of reality, thought or culture. Since Sapirs name has been associated with Whorfs, as the label Sapir-Whorf hypothesis indicates, a term widely used today to refer to linguistic relativity, we carried out tracking of some fundamental concepts in this discussion, within the theoretical framework proposed by Sapir, as his conceptions of language, culture and thought, in order to assess the merits of its reception as a relativist. As this research was conducted under the methodology of Linguistic Historiography, we have also sought to rescue the contextual factors in which such theoretical propositions have emanated. Finally, we propose to discuss the setting of the term relativism in the author\'s theoretical horizon, aiming to provide a reading perspective fairly different from the ones proposed currently by numerous handbooks on the History of Linguistics.

Edward Sapir (1884-1939)

Edward Sapir (1884-1939)

Estruturalismo

Hipótese Sapir-Whorf

Linguistic relativity

Linguística do século XX

Relativismo linguístico

Sapir-Whorf hypothesis

Structuralism

XX-century linguistics

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

Campos, Lissa de Souza

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.