
Records 
Links 

Author 
Anabalon, A.; Astefanesei, D.; Oliva, J. 


Title 
Hairy black hole stability in AdS, quantum mechanics on the halfline and holography 
Type 


Year 
2015 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
10 
Pages 
15 pp 


Keywords 
Black Holes; AdSCFT Correspondence 


Abstract 
We consider the linear stability of 4dimensional hairy black holes with mixed boundary conditions in Antide Sitter spacetinie. We focus on the mass of scalar fields around the maximally supersymmetric vacuum of the gauged N = 8 supergravity in four dimensions, m(2) = 2l(2). It is shown that the Schrodinger operator on the halfline, governing the S2, H2 or R2 invariant mode around the hairy black hole, allows for nontrivial selfadjoint extensions and each of them corresponds to a class of mixed boundary conditions in the gravitational theory. Discarding the selfadjoint extensions with a negative mode impose a restriction on these boundary conditions. The restriction is given in terms of an integral of the potential in the Schrodinger operator resembling the estimate of Simon for Schrodinger operators on the real line. In the context of AdS/CFT duality, our result has a natural interpretation in terms of the field theory dual effective potential. 


Address 
[Anabalon, Andres] Univ Adolfo Ibanez, Fac Artes Liberales, Dept Ciencias, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000363555500003 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
543 

Permanent link to this record 




Author 
Anabalon, A.; Astefanesei, D.; Mann, R. 


Title 
Exact asymptotically flat charged hairy black holes with a dilaton potential 
Type 


Year 
2013 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
10 
Pages 
22 pp 


Keywords 
Classical Theories of Gravity; Black Holes 


Abstract 
We find broad classes of exact 4dimensional asymptotically flat black hole solutions in EinsteinMaxwell theories with a nonminimally coupled dilaton and its nontrivial potential. We consider a few interesting limits, in particular, a regular generalization of the dilatonic ReissnerNordstrom solution and, also, smooth deformations of supersymmetric black holes. Further examples are provided for more general dilaton potentials. We discuss the thermodynamical properties and show that the first law is satisfied. In the nonextremal case the entropy depends, as expected, on the asymptotic value of the dilaton. In the extremal limit, the entropy is determined purely in terms of charges and is independent of the asymptotic value of the dilaton. The attractor mechanism can be used as a criterion for the existence of the regular solutions. Since there is a 'competition' between the effective potential and dilaton potential, we also obtain regular extremal black hole solutions with just one U(1) gauge field turned on. 


Address 
[Anabalon, Andres] Univ Adolfo Ibanez, Fac Artes Liberales, Dept Ciencias, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000326296600001 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
324 

Permanent link to this record 




Author 
Anabalon, A.; Deruelle, N.; Julie, F.L. 


Title 
EinsteinKatz action,variational principle, Noether charges and the thermodynamics of AdSblack holes 
Type 


Year 
2016 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
8 
Pages 
15 pp 


Keywords 
Black Holes; Classical Theories of Gravity; AdSCFT Correspondence 


Abstract 
In this paper we describe 4dimensional gravity coupled to scalar and Maxwell fields by the EinsteinKatz action, that is, the covariant version of the “GammaGamma – GammaGamma” part of the Hilbert action supplemented by the divergence of a generalized “Katz vector”. We consider static solutions of Einstein's equations, parametrized by some integration constants, which describe an ensemble of asymptotically AdS black holes. Instead of the usual Dirichlet boundary conditions, which aim at singling out a specific solution within the ensemble, we impose that the variation of the action vanishes on shell for the broadest possible class of solutions. We will see that, when a longrange scalar “hair” is present, only subfamilies of the solutions can obey that criterion. The KatzBicakLyndenBell (“KBL”) superpotential built on this (generalized) vector will then give straightforwardly the Noether charges associated with the spacetime symmetries (that is, in the static case, the mass). Computing the action on shell, we will see next that the solutions which obey the imposed variational principle, and with Noether charges given by the KBL superpotential, satisfy the Gibbs relation, the Katz vectors playing the role of “counterterms”. Finally, we show on the specific example of dyonic black holes that the subclass selected by our variational principle satisfies the first law of thermodynamics when their mass is de fined by the KBL superpotential. 


Address 
[Anabalon, Andres] Univ Adolfo Ibanez, Fac Artes Liberales, Dept Ciencias, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000382166100003 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
652 

Permanent link to this record 




Author 
Canfora, F.; Gomberoff, A.; Oh, S.H.; Rojas, F.; SalgadoRebolledo, P. 


Title 
Meronic EinsteinYangMills black hole in 5D and gravitational spin from isospin effect 
Type 


Year 
2019 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
6 
Pages 
32 pp 


Keywords 
Black Holes; Field Theories in Higher Dimensions; Gauge Symmetry; Solitons Monopoles and Instantons 


Abstract 
We construct an analytic black hole solution in SU(2) EinsteinYangMills theory in five dimensions supporting a Meron field. The gauge field is proportional to a pure gauge and has a nontrivial topological charge. The wouldbe singularity at the Meron core gets shielded from the exterior by the black hole horizon. The metric has only one integration constant, namely, its ADM mass, which is shown to be finite once an appropriate boundary term is added to the action. The thermodynamics is also worked out, and a firstorder phase transition, similar to the one occurring in the ReissnerNordstrom case is identified. We also show that the solution produces a spin from isospin effect, i.e., even though the theory is constructed out of bosons only, the combined system of a scalar field and this background may become fermionic. More specifically, we study scalar excitations in this purely bosonic background and find that the system describes fermionic degrees of freedom at spatial infinity. Finally, for the asymptotically AdS(5) case, we study its consequences in the context of the AdS/CFT correspondence. 


Address 
[Canfora, Fabrizio; Gomberoff, Andres] Ctr Estudios Cient, Casilla 1469, Valdivia, Chile, Email: canfora@cecs.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000472210200001 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
1024 

Permanent link to this record 




Author 
Anabalon, A. 


Title 
Exact black holes and universality in the backreaction of nonlinear sigma models with a potential in (A)dS(4) 
Type 


Year 
2012 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
6 
Pages 
18 pp 


Keywords 
Integrable Equations in Physics; Black Holes 


Abstract 
The aim of this paper is to construct accelerated, stationary and axisymmetric exact solutions of the Einstein theory with self interacting scalar fields in (A)dS4. To warm up, the backreaction of the (non)minimally coupled scalar field is solved, the scalar field equations are integrated and all the potentials compatible with the metric ansatz and Einstein gravity are found. With these results at hand the nonlinear sigma model is tackled. The scalar field Lagrangian is generic; neither the coupling to the curvature, neither the metric in the scalar manifold nor the potential, are fixed ab initio. The unique assumption in the analysis is the metric ansatz: it has the form of the most general Petrov type D vacuum solution of general relativity; it is a a cohomogeneity two Weyl rescaling of the Carter metric and therefore it has the typical PlebanskiDemianski form with two arbitrary functions of one variable and one arbitrary function of two variables. It is shown, by an straightforward manipulation of the field equations, that the metric is completely integrable without necessity of specifiying anything in the scalar Lagrangian. This results is that the backreaction of the scalar fields, within this class of metrics, is universal. The metric functions generically show an explicit dependence on a dynamical exponent that allows to smoothly connect this new family of solutions with the actual PlebanskiDemianski spacetime. The remaining field equations imply that the scalar fields follow geodesics in the scalar manifold with an affine parameter given by a nonlinear function of the spacetime coordinates and define the onshell form of the potential plus a functional equation that it has to satisfy. To further find the exact form of the potential the simplest case associated to a flat scalar manifold is taken. The most general potential compatible with the Einstein theory and the metric ansatz is constructed in this case and it is shown that it has less symmetry than the maximal compact subgroup of the coset construction. Finally, the most general family of (A) dS4 static hairy black holes is explicitly constructed and its properties are outlined. 


Address 
Univ Adolfo Ibanez, Fac Ingn & Ciencias, Dept Ceneias, Fac Arts Liberales, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000306418300036 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
242 

Permanent link to this record 




Author 
Anabalon, A.; Canfora, F.; Giacomini, A.; Oliva, J. 


Title 
Black holes with primary hair in gauged N=8 supergravity 
Type 


Year 
2012 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
6 
Pages 
12 pp 


Keywords 
Black Holes; Supergravity Models 


Abstract 
In this paper, we analyze the static solutions for the U(1)(4) consistent truncation of the maximally supersymmetric gauged supergravity in four dimensions. Using a new parametrization of the known solutions it is shown that for fixed charges there exist three Possible black hole configurations according to the pattern of symmetry breaking of the (scalars sector of the) Lagrangian. Namely a black hole without scalar fields, a black hole with a primary hair and a black hole with a secondary hair respectively. This is the first, exact, example of a black hole with a primary scalar hair, where both the black hole and the scalar fields are regular on and outside the horizon. The configurations with secondary and primary hair can be interpreted as a spontaneous symmetry breaking of discrete permutation and reflection symmetries of the action. It is shown that there exist a triple point in the thermodynamic phase space where the three solution coexist. The corresponding phase transitions are discussed and the free energies are written explicitly as function of the thermodynamic coordinates in the uncharged case. In the charged case the free energies of the primary hair and the hairless black hole are also given as functions of the thermodynamic coordinates. 


Address 
[Anabalon, Andres] Univ Adolfo Ibanez, Fac Ingn & Ciencias, Fac Artes Liberales, Dept Ciencias, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000306416500011 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
233 

Permanent link to this record 




Author 
Anabalon, A.; Astefanesei, D.; Choque, D.; Martinez, C. 


Title 
Trace anomaly and counterterms in designer gravity 
Type 


Year 
2016 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
3 
Pages 
29 pp 


Keywords 
AdSCFT Correspondence; Black Holes; Gaugegravity correspondence 


Abstract 
We construct concrete counterterms of the BalasubramanianKraus type for Einsteinscalar theories with designer gravity boundary conditions in AdS(4), so that the total action is fi nite onshell and satisfy a well de fi ned variational principle. We focus on scalar fi elds with the conformal mass m(2) = 2l(2) and show that the holographic mass matches the Hamiltonian mass for any boundary conditions. We compute the trace anomaly of the dual fi eld theory in the generic case, as well as when there exist logarithmic branches of nonlinear origin. As expected, the anomaly vanishes for the boundary conditions that are AdS invariant. When the anomaly does not vanish, the dual stress tensor describes a thermal gas with an equation of state related to the boundary conditions of the scalar fi eld. In the case of a vanishing anomaly, we recover the dual theory of a massless thermal gas. As an application of the formalism, we consider a general family of exact hairy black hole solutions that, for some particular values of the parameters in the moduli potential, contains solutions of fourdimensional gauged N = 8 supergravity and its omegadeformation. Using the AdS/CFT duality dictionary, they correspond to triple trace deformations of the dual fi eld theory. 


Address 
[Anabalon, Andres] Univ Adolfo Ibanez, Fac Artes Liberales, Dept Ciencias, Av Padre Hurtado 750, Vina Del Mar, Chile, Email: andres.anabalon@uai.cl; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000375316900002 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
618 

Permanent link to this record 




Author 
Acena, A.; Anabalon, A.; Astefanesei, D.; Mann, R. 


Title 
Hairy planar black holes in higher dimensions 
Type 


Year 
2014 
Publication 
Journal Of High Energy Physics 
Abbreviated Journal 
J. High Energy Phys. 


Volume 

Issue 
1 
Pages 
21 pp 


Keywords 
Classical Theories of Gravity; Black Holes 


Abstract 
We construct exact hairy planar black holes in Ddimensional AdS gravity. These solutions are regular except at the singularity and have stressenergy that satisfies the null energy condition. We present a detailed analysis of their thermodynamical properties and show that the first law is satisfied. We also discuss these solutions in the context of AdS/CFT duality and construct the associated cfunction. 


Address 
[Acena, Andres] Univ Nacl Cuyo, Inst Ciencias Basicas, RA5500 Mendoza, Argentina, Email: acena.andres@gmail.com; 


Corporate Author 

Thesis 



Publisher 
Springer 
Place of Publication 

Editor 



Language 
English 
Summary Language 

Original Title 



Series Editor 

Series Title 

Abbreviated Series Title 



Series Volume 

Series Issue 

Edition 



ISSN 
10298479 
ISBN 

Medium 



Area 

Expedition 

Conference 



Notes 
WOS:000346240600002 
Approved 



Call Number 
UAI @ eduardo.moreno @ 
Serial 
431 

Permanent link to this record 