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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Singularidades do espaço-tempo em variedades de Weyl

Lobo, Iarley Pereira 25 October 2013 (has links)
Made available in DSpace on 2015-05-14T12:14:09Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1334729 bytes, checksum: 9a0c40cdc35732bc5db924ec9ea986fe (MD5) Previous issue date: 2013-10-25 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this paper, we analyze the existence of space-time singularities from the point of view of geodesic incompleteness. We apply this method, also used to prove the wellknown Hawking-Penrose theorems which states that unless the matter content of the Universe present unusual and exotic properties, the general theory of relativity predicts that space-time singularities will develop either in the past of in the future. In this dissertation we regard this question in different context, namely, by considering alternative gravitational theories formulated in a Weyl integrable geometry (WIST). We extend the Hawking-Penrose theorems to this kind of non-riemannian geometry and obtain conditions for escaping the inevitability of space-time singularities. We also consider the issue of changing frames in scalar-tensor theories and provide a geometric overview of Dickes interpretation of Brans-Dicke theory by unifying the treatment of frames in a weylian scenario. / Nesse trabalho, analisamos a existência de singularidades do espaço-tempo sob o ponto de vista intrínseco da incompletude geodésica. Usamos o método presente nos teoremas de Hawking-Penrose para demonstrar o resultado conhecido, desde a década de 1970, que se suposta a inexistência de propriedades exóticas de matéria e energia, o espaço-tempo descrito pela Relatividade Geral (RG) é, necessariamente, singular. Para contornar esse problema, consideramos a possibilidade de termos teorias gravitacionais ambientadas em uma geometria de Weyl integrável, como WIST. Generalizamos o teorema de singularidade da RG riemanniana para essa geometria não-riemanniana, fornecendo assim, condições para a inevitabilidade ou provável fuga do destino singular. Também tratamos do tema da mudança de frames nas teorias escalares-tensoriais, fornecendo uma visão geométrica da interpretação de Dicke para a teoria de Brans-Dicke ao unificar os frames em um ambiente weyliano.
2

Gravitação newtoniana modificada a partir da teoria gravitacional de Brans-Dicke

Walter de Oliveira Paulo 29 October 2011 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Investigamos inicialmente o problema da obtenção de uma gravitação newtoniana modificada no caso da teoria da Relatividade Geral. Na sequência, encontramos uma solução geral com simetria esférica para um campo gravitacional fraco no contexto da Teoria de Brans-Dicke. Esta solução é independente de qualquer condição de coordenada. Então, para uma escolha conveniente da função f(r) na métrica de Brans-Dicke, exibimos uma fórmula modificada para a gravitação newtoniana, a qual pode descrever a gravidade em uma escala de comprimento pequena. Discutimos os resultados em comparação com o caso da Relatividade Geral / We investigate initially the problem of obtaining a modified newtonian gravitation in the case of General Relativity theory. Following, we find a general solution with spherical symmetry for a weak gravitational field in the context of Brans-Dicke theory. This solution is independent of any coordinate condition. Then, for a convenient choice of the function f(r) in Brans-Dicke metric, we exhibit a modified formula to newtonian gravity, which can describe gravity in a small length scale. We discuss the results in comparison with the case of General Relativity
3

Índice de refração na teoria gravitacional de Brans-Dicke : um estudo para métricas estáticas e pressões não nulas / Index of Refraction in the Theory Gravitacional of Brans-Dicke: A Study for Metric Statics and Pressures non Null

Antonio Francisco Leitão 14 October 2009 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In this work we obtain the refractive index taking the Brans-Dicke theory as the fundamental and underlying gravitational theory. In our investigation we consider that the spacetime is static and we makes no assumptions about the relative smallness or isotropy of internal pressures of the sources generating the gravitational field. We employ the technique of weaking the gravitational field equations in order to derive formulae for the refractive index tensor and we make some applications of these results / Neste trabalho obtemos o índice de refração considerando-se a teoria de Brans-Dicke como a teoria gravitacional fundamental. Na investigacão admitimos que o espaço-tempo é estático e as pressões internas da fonte do campo gravitacional são, em princípio, não nulas e anisotrópicas. Utilizamos a técnica da aproximacão de campo fraco das equações de campo para obter expressões para o indice de refração tensorial, fazendo-se algumas aplicacões dos resultados
4

Gravitacionismo no contexto da teoria gravitacional de Brans-Dicke

João de Ribamar Silva 05 February 2010 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In this work we develop the formalism of the gravitomagnetism in the context of the Brans-Dicke theory of gravity. We write the field equations in a type-Maxwell form while considering the approximations of weak field and of low speed of rotation of the source. We examine the effect of Lense-Thirring precession of inertial frames and obtained the equation of motion for a particle. We have also introduced a model with the angular momentum of the source varying linearly with time, calculating the gravitomagnetic time delay due. The results were compared with the predictions of the theory of General Relativity. / Neste trabalho desenvolvemos o formalismo do gravitacionismo no contexto da teoria gravitacional de Brans-Dicke. Escrevemos as equações de campo em uma forma tipo-Maxwell ao considerarmos as aproximações de campo fraco e de baixa velocidade de rotação da fonte. Examinamos o efeito Lense-Thiring de pressão dos referenciais inerciais e obtivemos a equação de movimento para uma partícula. Introduzimos ainda um modelo com o momento angular da fonte variando linearmente no tempo, calculando o atraso do tempo gravitomagnético decorrente. Os resultados obtidos foram comparados com as previsões da teoria da Relatividade Geral.
5

Teorias modificadas da gravitação e a violação de causalidade

Silva, Paulo José Ferreira Porfírio da 22 February 2017 (has links)
Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-13T14:26:30Z No. of bitstreams: 1 arquivototal.pdf: 2274734 bytes, checksum: 20f744b4f2279525b9a574a0a0de7838 (MD5) / Made available in DSpace on 2017-09-13T14:26:30Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 2274734 bytes, checksum: 20f744b4f2279525b9a574a0a0de7838 (MD5) Previous issue date: 2017-02-22 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / In this thesis we deal with G odel-type Universes in the context of modi ed gravity, in particular, Chern-Simons modi ed gravity and Brans-Dicke theory with cosmological constant (BD- ). The G odel-type metrics have been intensively discussed in the General Relativity (GR) over years. It is known that such a metrics present Closed Time-like Curves (CTC's), in other words, the G odel-type metrics are themselves an example of the causality violation. Our goal is verify the consistency of the G odel-type metrics within the Chern-Simons modi ed gravity in both: non-dynamical and dynamical formulations. In the non-dynamical framework, we show that is possible a vacuum solution in contrast to GR. Another essentially new result that we get is the presence of causal solutions for a well-motivated matter source, in general, the solutions have no analogue in GR. Moreover, the vacuum solution represents the limiting case separating the completely causal and non-causal regions, such a property re ects the topological features of the Chern-Simons theory. The primordial distinguishing feature between the Chern-Simons modi ed gravity and GR solutions is the presence of the breaking Lorentz symmetry. It turns out this breaking opens up a range of new solutions. We show that the non-trivial Chern-Simons solutions in the non-dynamical framework is accompanied by rst-order corrections of the Lorentz-violating parameter. Furthermore, in the dynamical framework the geometric parameters are also a ected by second-order corrections of the Lorentzviolating parameter. We also investigated the G odel-type metrics in BD- model. We obtain a vacuum solution which is completely causal, m2 = 4!2, where for ~! ! 1 one recovers the GR with a scalar eld and cosmological constant. It is worth calling attention to the role of the cosmological constant that is fundamental in this context. / Nesta tese tratamos os Universos tipo Code' no contexto da gravidade modificada, em particular, na gravidade modificada de Chern-Simons e na teoria de Brans-Dicke com constante cosmolOgica (BD-A). As metricas tipo Code' vem sendo intensamente discuti­das na Relatividade Geral (RG) ao longo dos anon. Sabe-se que tail metricas apresentam Curvas tipo Tempo Fechadas (CTC's), ou seja, as prOprias metricas tipo Code' sao um exemplo da violagao de causalidade. Nosso objetivo é verificar a consistencia das metricas do tipo Code' dentro da gravidade modificada de Chern-Simons em ambas as formula-goes: nao dinamica e dinamica. Na formulagao nao-dinamica, mostramos que é possivel uma solugao de vacuo diferentemente da RG. Outro resultado essencialmente novo que obtemos é a presenga de solugoes causais para uma fonte de materia bem motivada, em geral, as solugoes nao tem analog° na RG. Alem disso, a solugao de vacuo representa o caso limite que separa as regioes completamente causal e nao causal, tal propriedade re­flete as caracteristicas topolOgicas da teoria de Chern-Simons. A caracteristica que difere fundamentalmente as solugoes da gravidade modificada de Chern-Simons e as da RG é a presenga da quebra da simetria de Lorentz. Acontece que essa quebra abre um leque de novas solugoes. Mostramos que as solugoes nao triviais de Chern-Simons na formulagao nao dinamica sao acompanhadas por corregoes de primeira ordem do parametro de viola­gao de Lorentz. Alem disso, na formulagao dinamica os parametros geometricos tambem sao afetados por corregoes de segunda ordem do parametro de violagao de Lorentz. Investigamos tambem as metricas tipo Code' no modelo BD-A. Obtemos uma solugao de vacuo completamente causal, m2 = 4w2, onde para cD -+ oo recupera-se a GR com um campo escalar e constante cosmolOgica. Vale a pena chamar a atengao para o papel da constante cosmolOgica que é fundamental neste contexto.
6

Teorias da gravitação e geometria de Weyl

Pucheu, María Laura 28 June 2013 (has links)
Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-19T13:39:47Z No. of bitstreams: 1 arquivototal.pdf: 1029692 bytes, checksum: e88e69e5c9a3cffdaf665a4b3a2d8d85 (MD5) / Made available in DSpace on 2017-09-19T13:39:47Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1029692 bytes, checksum: e88e69e5c9a3cffdaf665a4b3a2d8d85 (MD5) Previous issue date: 2013-06-28 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / We show that the theory of General Relativity can be entirely formulated in the language of the integrable Weyl geometry. We develop the concept of Weyl frames and state the fact that they are completely equivalent as far as geodesic motion is concerned. In the case of General Relativity, we build an action that is manifestly invariant with respect to Weyl transformations. In this scenario, the gravitational field is described by a combination of both the metric and a geometrical scalar field. We illustrate this point by examining how distinct geometrical and physical pictures of the same phenomena may arise in different frames for the particular case of conformally flat spacetimes. Besides, we show that our choice of Weyl geometry for describing the space-time of General Relativity completely agrees with Poincare ideas that the geometry of space was merely a convention and that no geometry is more correct than any other, only more convenient. On the other hand, we consider the Brans-Dicke gravitational theory as a point of departure for constructing a geometric scalar-field theory. In this approach we apply the Palatini variational method to the Brans-Dicke action. We then are naturally led to conclude that space-time has the geometrical structure of a Weyl integrable manifold. We briefly examine some features of this scalar-tensor theory in which Brans-Dicke scalar field now plays the role of a geometrical field. / A gravitagao tern lido atribuida, desde a aparigao da relatividade geral, a curvatura do espago­tempo. A linguagem geometrodinamica por esta teoria introduzida, representa uma ferra­menta conveniente para predizer o comportamento da materia. Partindo da ideia proposta por Poincare de que a geometria do espago é apenas uma convengao, afirmando que nenhuma geometria é mais correta que outra, mas mais conveniente, mostramos como certas teorias da gravitagao, ern particular a teoria geral da relatividade, assim como a teoria de Brans-Dicke, podem ser completamente reformuladas numa geometria que é uma generalizagao da geometria riemanniana: a geometria de Weyl integravel. Corn esta escolha da linguagem matematica, o movimento das particulas e raios de luz correspondem a geodesicas weylia­nas, as quais satisfazem uma nova classe de invariancia, a invariancia por transformagoes de Weyl. Estas transformagoes permitem definir os chamados referenciais de Weyl e, no caso da teoria da gravitagao criada por Einstein, recupera-la na sua formulagao riemanniana, num gauge particular. Por outro lado, esta modificagao na dinamica dos objetos traz uma nova percepgao dos fenomenos fisicos que tentaremos explorar.
7

Cordas cósmicas girantes na gravitação de Brans-Dicke / Spinning cosmic strings in Brans-Dicke gravitation

Santos, Sérgio Mittmann dos 23 February 2018 (has links)
Submitted by Sérgio Mittmann dos Santos (smittmanns@gmail.com) on 2018-04-13T23:20:37Z No. of bitstreams: 1 Tese_SMdS.pdf: 14966593 bytes, checksum: 50aeb1b3bc772ed3ff21708296193489 (MD5) / Rejected by Pamella Benevides Gonçalves null (pamella@feg.unesp.br), reason: Solicitamos que realize correções na submissão seguindo as orientações abaixo: É necessário revisar a formatação das referências seguindo a ABNT 6023:2003, por exemplo, o que ocorre em sua Tese é a ausência da indicação de autoria segundo as normas, abaixo orientação da ABNT. entre outros elementos. 8.1.1 Autor pessoal Indica(m)-se o(s) autor(es), de modo geral, pelo último sobrenome, em maiúsculas, seguido do(s) prenome(s) e outros sobrenomes, abreviado(s) ou não. Recomenda-se, tanto quanto possível, o mesmo padrão para abreviação de nomes e sobrenomes, usados na mesma lista de referências. Os nomes devem ser separados por ponto-e-vírgula, seguido de espaço. Sobre a elaboração das referencias e citações favor solicitar orientação com a bibliotecária Juciene (juciene@feg.unesp.br) Agradecemos a compreensão. on 2018-04-16T18:47:09Z (GMT) / Submitted by Sérgio Mittmann dos Santos (smittmanns@gmail.com) on 2018-04-18T17:12:53Z No. of bitstreams: 1 Tese_SMdS_2.pdf: 4371571 bytes, checksum: cd4208377d9640590e86974e7a28bc7c (MD5) / Approved for entry into archive by Pamella Benevides Gonçalves null (pamella@feg.unesp.br) on 2018-04-19T19:05:30Z (GMT) No. of bitstreams: 1 santos_sm_dr_guara.pdf: 4371571 bytes, checksum: cd4208377d9640590e86974e7a28bc7c (MD5) / Made available in DSpace on 2018-04-19T19:05:30Z (GMT). No. of bitstreams: 1 santos_sm_dr_guara.pdf: 4371571 bytes, checksum: cd4208377d9640590e86974e7a28bc7c (MD5) Previous issue date: 2018-02-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A partir da teoria da gravitação de Brans-Dicke, são obtidas soluções exatas para as cordas cósmicas girantes. As soluções são para cordas retas, que preservam a simetria de Lorentz ao longo do eixo longitudinal de simetria, e para as não retas, com simetria aproximadamente cilíndrica e que violam a simetria de Lorentz. Essas soluções permitem verificar se os espaços-tempos das cordas são regulares ou apresentam singularidades. Além disso, a possibilidade de que as cordas sejam fontes de curvas tipo-tempo fechadas também é analisada. Exclusivamente para as cordas retas, é verificado se essas se mantiveram estáveis após as suas eventuais formações, e se uma escolha adequada para as constantes de integração das soluções impede a existência das curvas tipo-tempo fechadas. Desde a década de 1930, as observações mostram que as velocidades tangenciais das estrelas das galáxias têm um comportamento que contraria o que é previsto quando se considera somente a presença de matéria visível: à medida que as distâncias até os centros das galáxias aumentam, as velocidades também aumentam, até que começam a tender para valores aproximadamente constantes. A razão para esse fenômeno ainda está sob debate. Por enquanto, é justificado pela presença de matéria escura nos halos das galáxias, mas a própria matéria escura ainda não é bem entendida. Em 1980, para 21 galáxias do tipo Sc, as observações mostraram que esse crescimento das velocidades até atingirem os valores constantes ocorre quando as distâncias crescem por 2 a 3 ordens de grandeza. Com as soluções da teoria de Brans-Dicke para as cordas não retas, é proposto um espaço-tempo com a mesma simetria aproximadamente cilíndrica, que descreve adequadamente esse comportamento nas velocidades das estrelas daquelas 21 galáxias / From the Brans-Dicke theory of gravitation, exact solutions are obtained for the spinning cosmic strings. The solutions are for straight strings, which preserve the Lorentz symmetry along the longitudinal axis of symmetry, and for the non-straight strings, with nearly cylindrical symmetry and which violate the Lorentz symmetry. These solutions allow us to verify if the spacetimes of the strings are regular or have singularities. In addition, the possibility that the strings are sources of closed timelike curves is also analyzed. Only for the straight strings, it is verified if these have remained stable after their eventual formations, and if a suitable choice for the integration constants of the solutions prevents the existence of the closed timelike curves. Since the 1930s, observations have shown that the tangential velocities of galaxies’ stars have a behavior that goes against what is predicted when considering only the presence of visible matter: as distances to the centers of galaxies increase, velocities also increase until they begin to tend to approximately constant values. The reason for this phenomenon is still under discussion. For now, it is justified by the presence of dark matter in the halos of galaxies, but the dark matter itself is still not well understood. In 1980, for 21 Sc-type galaxies, observations showed that such velocities growth until reaching constant values occurs when distances grow by 2 to 3 orders of magnitude. With the solutions of the Brans-Dicke theory for the non-straight strings, a spacetime with the same nearly cylindrical symmetry is proposed, which adequately describes this behavior in the velocities of the stars of those 21 galaxies
8

Scalar-tensor gravity with pseudoscalar couplings

Lambert, Simon 19 December 2008 (has links)
I examine the observational effects of a light scalar field with a scalar coupling to masses and a pseudoscalar coupling to light and particle spins. The pseudoscalar coupling to light induces a coupling to atomic spins both by inducing a coupling to particle spins directly, and by interactions with electromagnetic fields in the atom. Experiments measuring the interaction of spins to the gradient of the field are the only known way to measure the strength of the interaction with spins. However, limits on the interaction with light derived from these experiments are barely competitive with the separate astronomical limits on the scalar interaction and the interaction with light. Assuming a low mass of the field, as would be the case if the field acts as quintessence, the polarization rotation of the CMB provides a much tighter limit on the product of the pseudoscalar and scalar interaction strengths.
9

Teoria escalar-tensorial: Uma abordagem geométrica

Almeida, Tony Silva 29 July 2014 (has links)
Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-13T14:39:21Z No. of bitstreams: 1 arquivototal.pdf: 851323 bytes, checksum: 599a5da8bbbe70ff2f4ba121890878e2 (MD5) / Made available in DSpace on 2017-09-13T14:39:21Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 851323 bytes, checksum: 599a5da8bbbe70ff2f4ba121890878e2 (MD5) Previous issue date: 2014-07-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this cool thesis, we consider an approach to Brans-Dicke theory of gravity in which the scalar eld has a geometrical nature. By postulating the Palatini variation, we nd out that the role played by the scalar eld consists in turning the space-time geometry into a Weyl integrable manifold. This procedure leads to a scalar-tensor theory that di ers from the original Brans-Dicke theory in many aspects and presents some new features. We also consider the Weyl integrable geometry to investigate gravity in (2+1)-dimensions. We show that, in addition to leading to a Newtonian limit, WIST in (2+1) dimensions presents some interesting properties that are not shared by Einstein theory, such as geodesic deviation between particles in a dust distribution. Finally, taking advantage of the duality between the geometrical scalar-tensor theory and general relativity coupled with a massless scalar eld we study naked singularities and wormholes. / Esta tese trata de tópicos relacionados às teorias escalares-tensoriais e a geometria de Weyl integrável. Nossa abordagem será no sentido de indicar a geometria de Weyl integr ável como sendo um ambiente natural para a introdução de teorias escalares-tensorias. Nossa discussão será em torno da teoria de Brans-Dicke, considerada o protótipo das teorias escalares tensoriais, no entanto a discussão é facilmente estendida para essas versões mais gerais. Fazemos isso em dois momentos. Primeiro, indicando, no âmbito da teoria de Brans-Dicke, que na estrutura geométrica e de campos adotadas pela teoria existe uma relação estreita com a geometria de Weyl, inclusive associando o efeito descrito na literatura como "quinta força"(que violaria o princípio de equivalência) com o movimento geodésico da geometria de Weyl integrável, reformulando o postulado geodésico. E, num segundo momento, usando o método variacional de Palatini, acabamos por formular uma nova teoria escalar-tensorial, agora com ingredientes completamente geométricos, ambientada numa geometria de Weyl integrável. Estudamos ainda soluções no vazio do problema estático de uma distribuição de massa esfericamente simétrica, onde surgem objetos de interesse astrofísico como singularidades nuas e buracos de minhoca. Também formulamos a teoria conhecida por WIST (Weyl Integrable Spacetimes) em (2 + 1)D, o que resulta numa teoria consistente, não sofrendo das falhas associadas à teoria da relatividade geral nessa dimensionalidade
10

Testing gravity in the local universe

McManus, Ryan January 2018 (has links)
General relativity (GR) has stood as the most accurate description of gravity for the last 100 years, weathering a barrage of rigorous tests. However, attempts to derive GR from a more fundamental theory or to capture further physical principles at high energies has led to a vast number of alternative gravity theories. The individual examination of each gravity theory is infeasible and as such a systematic method of examining modified gravity theories is a necessity. Studying generic classes of gravity theories allows for general statements about observables to be made independent of explicit models. Take, for example, those models described by the Horndeski action, the most general class of scalar-tensor theory with at most second-order derivatives in the equations of motion, satisfying theoretical constraints. But these constraints alone are not enough for a given modified gravity model to be physically viable and hence worth studying. In particular, observations place incredibly tight constraints on the size of any deviation in the solar system. Hence, any modified gravity would have to mimic GR in such a situation. To accommodate this requirement, many models invoke screening mechanisms which suppress deviations from GR in regions of high density. But these mechanisms really upon non-linear effects and so studying them in complex models is mathematically complex. To constrain the space of actions of Horndeski type to those which pass solar-system tests, a set of conditions on the four free functions of the Horndeski action are derived which indicate whether a specific model embedded in the action possesses a GR limit. For this purpose, a new and surprisingly simple scaling method is developed, identifying dominant terms in the equations of motion by considering formal limits of the couplings that enter through the new terms in the modified gravity action. Solutions to the dominant terms identify regimes where nonlinear terms dominate and Einstein's field equations are recovered to leading order. Together with an efficient approximation of the scalar field profile, one can determine whether the recovery of Einstein's field equations can be attributed to a genuine screening effect. The parameterised post-Newtonian (PPN) formalism has enabled stringent tests of static weak-field gravity in a theory-independent manner. This is through parameterising common perturbations of the metric found when performing a post-Newtonian expansion. The framework is adapted by introducing an effective gravitational coupling and defining the PPN parameters as functions of position. Screening mechanisms of modified gravity theories can then be incorporated into the PPN framework through further developing the scaling method into a perturbative series. The PPN functions are found through a combination of the scaling method with a post-Newtonian expansion within a screened region. For illustration, we show that both a chameleon and cubic galileon model have a limit where they recover GR. Moreover, we find the effective gravitational constant and all PPN functions for these two theories in the screened limit. To examine how the adapted formalism compares to solar-system tests, we also analyse the Shapiro time delay effect for these two models and find no deviations from GR insofar as the signal path and the perturbing mass reside in a screened region of space. As such, tests based upon the path light rays such as those done by the Cassini mission do not constrain these theories. Finally, gravitational waves have opened up a new regime where gravity can be tested. To this end, we examine how the generation of gravitational waves are affected by theories of gravity with screening to second post-Newtonian (PN) order beyond the quadrupole. This is done for a model of gravity where the black hole binary lies in a screened region, while the space between the binary's neighbourhood and the detector is described by Brans-Dicke theory. We find deviations at both 1.5 and 2 PN order. Deviations of this size can be measured by the Advanced LIGO gravitational wave detector highlighting that our calculation may allow for constraints to be placed on these theories. We model idealised data from the black hole merger signal GW150914 and perform a best fit analysis. The most likely value for the un-screened Brans-Dicke parameter is found to be ω = -1:42, implying on large scales gravity is very modified, incompatible with cosmological results.

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