Your search keyword '"Reina, Borja"' showing total 17 results

1. Existence and uniqueness of compact rotating configurations in GR in second order perturbation theory

Author

Mars, Marc, Reina, Borja, and Vera, Raül

Subjects

General Relativity and Quantum Cosmology, Mathematics - Differential Geometry

Abstract

Existence and uniqueness of rotating fluid bodies in equilibrium is still poorly understood in General Relativity (GR). Apart from the limiting case of infinitely thin disks, the only known global results in the stationary rotating case (Heilig [14] and Makino [21] [arXiv:1705.07392]) show existence in GR nearby a Newtonian configuration (under suitable additional restrictions). In this work we prove existence and uniqueness of rigidly (slowly) rotating fluid bodies in equilibrium to second order in perturbation theory in GR. The most widely used perturbation framework to describe slowly rigidly rotating stars in the strong field regime is the Hartle-Thorne model. The model involves a number of hypotheses, some explicit, like equatorial symmetry or that the perturbation parameter is proportional to the rotation, but some implicit, particularly on the structure and regularity of the perturbation tensors and the conditions of their matching at the surface. In this work, with basis on the gauge results obtained in [25], the Hartle-Thorne model is fully derived from first principles and only assuming that the perturbations describe a rigidly rotating finite perfect fluid ball (with no layer at the surface) with the same barotropic equation of state as the static ball. Rigidly rotating fluid balls are analyzed consistently in second order perturbation theory by imposing only basic differentiability requirements and boundedness. Our results prove in particular that, at this level of approximation, the spacetime must be indeed equatorially symmetric and is fully determined by two parameters, namely the central pressure and the uniform angular velocity of the fluid., Comment: 81 pages, no figures

Published

2020

2. Gauge fixing and regularity of axially symmetric and axistationary second order perturbations around spherical backgrounds

Author

Mars, Marc, Reina, Borja, and Vera, Raül

Subjects

General Relativity and Quantum Cosmology, Mathematics - Differential Geometry

Abstract

Perturbation theory in geometric theories of gravitation is a gauge theory of symmetric tensors defined on a Lorentzian manifold (the background spacetime). The gauge freedom makes uniqueness problems in perturbation theory particularly hard as one needs to understand in depth the process of gauge fixing before attempting any uniqueness proof. This is the first paper of a series of two aimed at deriving an existence and uniqueness result for rigidly rotating stars to second order in perturbation theory in General Relativity. A necessary step is to show the existence of a suitable choice of gauge and to understand the differentiability and regularity properties of the resulting gauge tensors in some "canonical form", particularly at the centre of the star. With a wider range of applications in mind, in this paper we analyse the fixing and regularity problem in a more general setting. In particular we tackle the problem of the Hodge-type decomposition into scalar, vector and tensor components on spheres of symmetric and axially symmetric tensors with finite differentiability down to the origin, exploiting a strategy in which the loss of differentiability is as low as possible. Our primary interest, and main result, is to show that stationary and axially symmetric second order perturbations around static and spherically symmetric background configurations can indeed be rendered in the usual "canonical form" used in the literature while loosing only one degree of differentiability and keeping all relevant quantities bounded near the origin., Comment: 60 pages, no figures

Published

2020

3. First order perturbations of hypersurfaces of arbitrary causal character

Author

Nolan, Brien C., Reina, Borja, and Sousa, Kepa

Subjects

General Relativity and Quantum Cosmology

Abstract

In this work we study the problem of first order perturbations of a general hypersurface, i.e. with arbitrary causal character at each point. We extend the framework by Mars (Class. Quantum Grav. 22 3325 (2005)) where this problem was studied to second order for everywhere timelike or spacelike hypersurfaces, and we adapt it to cover the general case. We apply the formalism to the matching of spacetimes across a general hypersurface to first order in perturbation theory., Comment: 31 pages + appendices, 2 figures

Published

2018

4. Supertranslations: redundancies of horizon data, and global symmetries at null infinity

Author

Sousa, Kepa, del Bosch, Guillermo Milans, and Reina, Borja

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We characterise the geometrical nature of smooth supertranslations defined on a generic non-expanding horizon (NEH) embedded in vacuum. To this end we consider the constraints imposed by the vacuum Einstein's equations on the NEH structure, and discuss the transformation properties of their solutions under supertranslations. We present a freely specifiable data set which is both necessary and sufficient to reconstruct the full horizon geometry, and is composed of objects which are invariant under supertranslations. We conclude that smooth supertranslations do not transform the geometry of the NEH, and that they should be regarded as pure gauge. Our results apply both to stationary, and non-stationary states of a NEH, the later ones being able to describe radiative processes taking place on the horizon. As a consistency check we repeat the analysis for BMS supertranslations defined on null infinity, $\mathcal{I}$. Using the same framework as for the NEH we recover the well known result that BMS supertranslations act non-trivially on the free data on $\mathcal{I}$. The full analysis is done in exact, non-linear, general relativity., Comment: 42 pages + appendices

Published

2017

5. Completion of the universal I-Love-Q relations in compact stars including the mass

Author

Reina, Borja, Sanchis-Gual, Nicolas, Vera, Raül, and Font, José A.

Subjects

General Relativity and Quantum Cosmology, Astrophysics - High Energy Astrophysical Phenomena

Abstract

In a recent paper we applied a rigorous perturbed matching framework to show the amendment of the mass of rotating stars in Hartle's model. Here, we apply this framework to the tidal problem in binary systems. Our approach fully accounts for the correction to the Love numbers needed to obtain the universal $I$-Love-$Q$ relations. We compute the corrected mass vs radius configurations of rotating quark stars, revisiting a classical paper on the subject. These corrections allow us to find a universal relation involving the second-order contribution to the mass $\delta M$. We thus complete the set of universal relations for the tidal problem in binary systems, involving four perturbation parameters, namely $I$, Love, $Q$, and $\delta M$. These relations can be used to obtain the perturbation parameters directly from observational data., Comment: 6 pages, 2 figures. Accepted for publication in MNRAS

Published

2017

6. Junction conditions in quadratic gravity: thin shells and double layers

Author

Reina, Borja, Senovilla, José M. M., and Vera, Raül

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory, Mathematical Physics

Abstract

The junction conditions for the most general gravitational theory with a Lagrangian containing terms quadratic in the curvature are derived. We include the cases with a possible concentration of matter on the joining hypersurface -termed as thin shells, domain walls or braneworlds in the literature- as well as the proper matching conditions where only finite jumps of the energy-momentum tensor are allowed. In the latter case we prove that the matching conditions are more demanding than in General Relativity. In the former case, we show that generically the shells/domain walls are of a new kind because they possess, in addition to the standard energy-momentum tensor, a double layer energy-momentum contribution which actually induces an external energy flux vector and an external scalar pressure/tension on the shell. We prove that all these contributions are necessary to make the entire energy-momentum tensor divergence-free, and we present the field equations satisfied by these energy-momentum quantities. The consequences of all these results are briefly analyzed., Comment: 43 pages, 1 figure

Published

2015

7. On the mass of rotating stars in Newtonian gravity and GR

Author

Reina, Borja and Vera, Raül

Subjects

General Relativity and Quantum Cosmology, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We show how the correction to the calculation of the mass in the original relativistic model of a rotating star by Hartle [6], found recently [10], appears in the Newtonian limit, and that the correcting term is indeed present, albeit hidden, in the original Newtonian approach by Chandrasekhar [2]., Comment: 11 pages, uses iopart style and a custom bibtex style

Published

2015

8. Slowly rotating homogeneous masses revisited

Author

Reina, Borja

Subjects

General Relativity and Quantum Cosmology

Abstract

Hartle's model for slowly rotating stars has been extensively used to compute equilibrium configurations of slowly rotating stars to second order in perturbation theory in General Relativity, given a barotropic equation of state (EOS). A recent study based on the modern theory of perturbed matchings show that the model must be amended to accommodate EOS's in which the energy density does not vanish at the surface of the non rotating star. In particular, the expression for the change in mass given in the original model, i.e. a contribution to the mass that arises when the perturbations are chosen so that the pressure of the rotating and non rotating configurations agree, must be modified with an additional term. In this paper, the amended change in mass is calculated for the case of constant density stars., Comment: 12 pages, 2 figures

Published

2015

9. Hartle's model within the general theory of perturbative matchings: the change in mass

Author

Reina, Borja and Vera, Raül

Subjects

General Relativity and Quantum Cosmology

Abstract

Hartle's model provides the most widely used analytic framework to describe isolated compact bodies rotating slowly in equilibrium up to second order in perturbations in the context of General Relativity. Apart from some explicit assumptions, there are some implicit, like the "continuity" of the functions in the perturbed metric across the surface of the body. In this work we sketch the basics for the analysis of the second order problem using the modern theory of perturbed matchings. In particular, the result we present is that when the energy density of the fluid in the static configuration does not vanish at the boundary, one of the functions of the second order perturbation in the setting of the original work by Hartle is not continuous. This discrepancy affects the calculation of the change in mass of the rotating star with respect to the static configuration needed to keep the central energy density unchanged., Comment: 6 pages, no figures. To appear in the proceedings of the ERE2014 in Journal of Physics: Conference Series

Published

2014

10. Revisiting Hartle's model using perturbed matching theory to second order: amending the change in mass

Author

Reina, Borja and Vera, Raül

Subjects

General Relativity and Quantum Cosmology

Abstract

Hartle's model describes the equilibrium configuration of a rotating isolated compact body in perturbation theory up to second order in General Relativity. The interior of the body is a perfect fluid with a barotropic equation of state, no convective motions and rigid rotation. That interior is matched across its surface to an asymptotically flat vacuum exterior. Perturbations are taken to second order around a static and spherically symmetric background configuration. Apart from the explicit assumptions, the perturbed configuration is constructed upon some implicit premises, in particular the continuity of the functions describing the perturbation in terms of some background radial coordinate. In this work we revisit the model within a modern general and consistent theory of perturbative matchings to second order, which is independent of the coordinates and gauges used to describe the two regions to be joined. We explore the matching conditions up to second order in full. The main particular result we present is that the radial function $m_0$ (in the setting of the original work) of the second order perturbation tensor, contrary to the original assumption, presents a jump at the surface of the star, which is proportional to the value of the energy density of the background configuration there. As a consequence, the change in mass needed by the perturbed configuration to keep the value of the central energy density unchanged must be amended. We also discuss some subtleties that arise when studying the deformation of the star., Comment: 38 pages, two figures; two paragraphs improved with a clearer statement, typos corrected, added two references, updated one; matches published version

Published

2014

11. Supermassive Cosmic String Compactifications

Author

Blanco-Pillado, Jose J., Reina, Borja, Sousa, Kepa, and Urrestilla, Jon

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

The space-time dimensions transverse to a static straight cosmic string with a sufficiently large tension (supermassive cosmic strings) are compact and typically have a singularity at a finite distance form the core. In this paper, we discuss how the presence of multiple supermassive cosmic strings in the 4D Abelian-Higgs model can induce the spontaneous compactification of the transverse space and explicitly construct solutions where the gravitational background becomes regular everywhere. We discuss the embedding of this model in N=1 supergravity and show that some of these solutions are half-BPS, in the sense that they leave unbroken half of the supersymmetries of the model., Comment: 32 pages, 8 figures

Published

2013

12. Predictive performance of multi-model ensemble forecasts of COVID-19 across European nations

Author

Sherratt, Katharine, primary, Gruson, Hugo, additional, Grah, Rok, additional, Johnson, Helen, additional, Niehus, Rene, additional, Prasse, Bastian, additional, Sandmann, Frank, additional, Deuschel, Jannik, additional, Wolffram, Daniel, additional, Abbott, Sam, additional, Ullrich, Alexander, additional, Gibson, Graham, additional, Ray, Evan L, additional, Reich, Nicholas G, additional, Sheldon, Daniel, additional, Wang, Yijin, additional, Wattanachit, Nutcha, additional, Wang, Lijing, additional, Trnka, Jan, additional, Obozinski, Guillaume, additional, Sun, Tao, additional, Thanou, Dorina, additional, Pottier, Loic, additional, Krymova, Ekaterina, additional, Meinke, Jan H, additional, Barbarossa, Maria Vittoria, additional, Leithauser, Neele, additional, Mohring, Jan, additional, Schneider, Johanna, additional, Wlazlo, Jaroslaw, additional, Fuhrmann, Jan, additional, Lange, Berit, additional, Rodiah, Isti, additional, Baccam, Prasith, additional, Gurung, Heidi, additional, Stage, Steven, additional, Suchoski, Bradley, additional, Budzinski, Jozef, additional, Walraven, Robert, additional, Villanueva, Inmaculada, additional, Tucek, Vit, additional, Smid, Martin, additional, Zajicek, Milan, additional, Perez Alvarez, Cesar, additional, Reina, Borja, additional, Bosse, Nikos I, additional, Meakin, Sophie R, additional, Castro, Lauren, additional, Fairchild, Geoffrey, additional, Michaud, Isaac, additional, Osthus, Dave, additional, Alaimo Di Loro, Pierfrancesco, additional, Maruotti, Antonello, additional, Eclerova, Veronika, additional, Kraus, Andrea, additional, Kraus, David, additional, Pribylova, Lenka, additional, Dimitris, Bertsimas, additional, Li, Michael Lingzhi, additional, Saksham, Soni, additional, Dehning, Jonas, additional, Mohr, Sebastian, additional, Priesemann, Viola, additional, Redlarski, Grzegorz, additional, Bejar, Benjamin, additional, Ardenghi, Giovanni, additional, Parolini, Nicola, additional, Ziarelli, Giovanni, additional, Bock, Wolfgang, additional, Heyder, Stefan, additional, Hotz, Thomas, additional, Singh, David E, additional, Guzman-Merino, Miguel, additional, Aznarte, Jose L, additional, Morina, David, additional, Alonso, Sergio, additional, Alvarez, Enric, additional, Lopez, Daniel, additional, Prats, Clara, additional, Burgard, Jan Pablo, additional, Rodloff, Arne, additional, Zimmermann, Tom, additional, Kuhlmann, Alexander, additional, Zibert, Janez, additional, Pennoni, Fulvia, additional, Divino, Fabio, additional, Catala, Marti, additional, Lovison, Gianfranco, additional, Giudici, Paolo, additional, Tarantino, Barbara, additional, Bartolucci, Francesco, additional, Jona Lasinio, Giovanna, additional, Mingione, Marco, additional, Farcomeni, Alessio, additional, Srivastava, Ajitesh, additional, Montero-Manso, Pablo, additional, Adiga, Aniruddha, additional, Hurt, Benjamin, additional, Lewis, Bryan, additional, Marathe, Madhav, additional, Porebski, Przemyslaw, additional, Venkatramanan, Srinivasan, additional, Bartczuk, Rafal P, additional, Dreger, Filip, additional, Gambin, Anna, additional, Gogolewski, Krzysztof, additional, Gruziel-Slomka, Magdalena, additional, Krupa, Bartosz, additional, Moszyński, Antoni, additional, Niedzielewski, Karol, additional, Nowosielski, Jedrzej, additional, Radwan, Maciej, additional, Rakowski, Franciszek, additional, Semeniuk, Marcin, additional, Szczurek, Ewa, additional, Zielinski, Jakub, additional, Kisielewski, Jan, additional, Pabjan, Barbara, additional, Holger, Kirsten, additional, Kheifetz, Yuri, additional, Scholz, Markus, additional, Przemyslaw, Biecek, additional, Bodych, Marcin, additional, Filinski, Maciej, additional, Idzikowski, Radoslaw, additional, Krueger, Tyll, additional, Ozanski, Tomasz, additional, Bracher, Johannes, additional, and Funk, Sebastian, additional

Published

2023

13. First order perturbations of hypersurfaces of arbitrary causal character

Author

Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Nolan, Brien, Reina, Borja, Sousa, Kepa, Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Nolan, Brien, Reina, Borja, and Sousa, Kepa

Abstract

In this work we study the problem of first order perturbations of a general hypersurface, i.e. with arbitrary causal character at each point. We extend the framework by Mars (2005 Class. Quantum Grav. 22 3325-48) where this problem was studied to second order for everywhere timelike or spacelike hypersurfaces, and we adapt it to cover the general case. We apply the formalism to the matching of spacetimes across a general hypersurface to first order in perturbation theory. © 2019 IOP Publishing Ltd.

Published

2019

14. Completion of the universal I–Love–Q relations in compact stars including the mass

Author

Reina, Borja, primary, Sanchis-Gual, Nicolas, additional, Vera, Raül, additional, and Font, José A., additional

Published

2017

15. Slowly rotating homogeneous masses revisited

Author

Reina, Borja, primary

Published

2015

16. Hartle's model within the general theory of perturbative matchings: the change in mass

Author

Reina, Borja, primary and Vera, Raül, additional

Published

2015

17. Slowly rotating homogeneous masses revisited.

Author

Reina, Borja

Subjects

*PROTON-proton cycle, *POWER density, *BAROTROPIC equation, *PERTURBATION theory, *STELLAR oscillations

Abstract

Hartle's model for slowly rotating stars has been extensively used to compute equilibrium configurations of slowly rotating stars to second order in perturbation theory in general relativity, given a barotropic equation of state. A recent study based on the modern theory of perturbed matchings concludes that the functions in the (first and second order) perturbation tensors can always be taken as continuous at the surface of the star, except for the second-order function m0. This function presents a jump at the surface of the star proportional to the discontinuity of the energy density there. This concerns only a particular outcome of the model: the change in mass δM. In this paper, the amended change in mass is calculated for the case of constant density stars. [ABSTRACT FROM AUTHOR]

Published

2016