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51. Black Hole Thermodynamics and Negative Entropy in deSitter and Anti-deSitter Einstein-Gauss-Bonnet gravity

Author

Cvetic, M., Nojiri, S., and Odintsov, S. D.

Subjects
High Energy Physics - Theory, High Energy Physics - Phenomenology
Abstract

We investigate the charged Schwarzschild-Anti-deSitter (SAdS) BH thermodynamics in 5d Einstein-Gauss-Bonnet gravity with electromagnetic field. The Hawking-Page phase transitions between SAdS BH and pure AdS space are studied. The corresponding phase diagrams (with critical line defined by GB term coefficient and electric charge) are drawn. The possibility to account for higher derivative Maxwell terms is mentioned. In frames of proposed dS/CFT correspondence it is demonstrated that brane gravity maybe localized similarly to AdS/CFT. SdS BH thermodynamics in 5d Einstein and Einstein-Gauss-Bonnet gravity is considered. The corresponding (complicated) surface counterterms are found and used to get the conserved BH mass, free energy and entropy. The interesting feature of of higher derivative gravity is the possibility for negative (or zero) SdS (or SAdS) BH entropy which depends on the parameters of higher derivative terms. We speculate that the appearence of negative entropy may indicate a new type instability where a transition between SdS (SAdS) BH with negative entropy to SAdS (SdS) BH with positive entropy would occur., Comment: 46 pages, Latex file, misprints corrected, reference added, discussion is enlarged

Published
2001
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52. Conformal anomaly from dS/CFT correspondence

Author

Nojiri, S. and Odintsov, S. D.

Subjects
High Energy Physics - Theory
Abstract

In frames of dS/CFT correspondence suggested by Strominger we calculate holographic conformal anomaly for dual euclidean CFT. The holographic renormalization group method is used for this purpose. It is explicitly demonstrated that two-dimensional and four-dimensional conformal anomalies (or corresponding central charges) have the same form as those obtained in AdS/CFT duality., Comment: LaTeX file 7 pages, references added

Published
2001
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53. Exotic Heavy Fermion State in the Filled Skutterudite PrFe$_4$P$_{12}$ Uncovered by the de Haas-van Alphen Effect

Author

Sugawara, H., Matsuda, T. D., Abe, K., Aoki, Y., Sato, H., Nojiri, S., Inada, Y., Settai, R., and Ōnuki, Y.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report the de Haas-van Alphen (dHvA) experiment on the filled skutterudite PrFe$_4$P$_{12}$ exhibiting apparent Kondo-like behaviors in the transport and thermal properties. We have found enormously enhanced cyclotron effective mass $m^{\rm \ast}_{\rm c}=81 m_{\rm 0}$ in the high field phase (HFP), which indicates that PrFe$_4$P$_{12}$ is the first Pr-compound in which really heavy mass has been unambiguously confirmed. Also in the low field non-magnetic ordered phase (LOP), we observed the dHvA branch with $m^{\rm \ast}_{\rm c}=10 m_{0}$ that is quite heavy taking into account its small Fermi surface volume (0.15% of the Brillouin zone size). The insensitivity of mass in LOP against the magnetic field suggests that the quadrupolar interaction plays a main role both in the mass renormalization and the LOP formation., Comment: 5 pages, 5 figures, Phys. Rev. B (01 October 2002) in press

Published
2000
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54. Dilatonic quantum multi-brane-worlds

Author

Nojiri, S., Odintsov, S. D., and Osetrin, K. E.

Subjects
High Energy Physics - Theory
Abstract

d5 dilatonic gravity action with surface counterterms motivated by AdS/CFT correspondence and with contributions of brane quantum CFTs is considered around AdS-like bulk. The effective equations of motion are constructed. They admit two (outer and inner) or multi-brane solutions where brane CFTs may be different. The role of quantum brane CFT is in inducing of complicated brane dilatonic gravity. For exponential bulk potentials the number of AdS-like bulk spaces is found in analytical form.The correspondent flat or curved (de Sitter or hyperbolic) dilatonic two branes are created, as a rule, thanks to quantum effects. The observable early Universe may correspond to inflationary brane. The found dilatonic quantum two brane-worlds usually contain the naked singularity but in couple explicit examples the curvature is finite and horizon (corresponding to wormhole-like space) appears., Comment: LaTeX file, 25 pages, discussion is enlarged

Published
2000
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55. Finite action, holographic conformal anomaly and quantum brane-worlds in d5 gauged supergravity

Author

Nojiri, S., Obregon, O., Odintsov, S. D., and Ogushi, S.

Subjects
High Energy Physics - Theory
Abstract

We report our recent results concerning d5 gauged supergravity (dilatonic gravity) considered on AdS background. The finite action on such background as well as d4 holographic conformal anomaly (via AdS/CFT correspondence) are found. In such formalism the bulk potential is kept to be arbitrary, dilaton dependent function. Holographic RG in such theory is briefly discussed. d5 AdS brane-world Universe induced by quantum effects of brane CFT is constructed. Such brane is spherical, hyperbolic or flat one. Hence, the possibility of quantum creation of inflationary brane-world Universe is shown., Comment: Proceedings of Londrina conference, April 2000, to appear

Published
2000
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56. Axion-Dilatonic Conformal Anomaly from Ads/CFT Correspondence

Author

Nojiri, S., Odintsov, S. D., Ogushi, S., Sugamoto, A., and Yamamoto, M.

Subjects
High Energy Physics - Theory
Abstract

We discuss general multidimensional axion-dilatonic AdS gravity which may correspond to bosonic sector of Gibbons-Green-Perry (compactified) IIB supergravity with RR-scalar (axion). Using AdS/CFT correspondence the 4d conformal anomaly on axion-dilaton-gravitational background is found from SG side. It is shown that for IIB SG with axion such conformal anomaly coincides with the one obtained from QFT calculation in ${\cal N}=4$ super Yang-Mills theory conformally coupled with ${\cal N}=4$ conformal SG. Brief discussion on possibility to apply these results for gauged SGs is also presented., Comment: LaTeX file, 10 pages

Published
1999
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57. Unified approach to study quantum properties of primordial black holes, wormholes and of quantum cosmology

Author

Nojiri, S., Obregon, O., and Odintsov, S. D.

Subjects
General Relativity and Quantum Cosmology
Abstract

We review the anomaly induced effective action for dilaton coupled spinors and scalars in large N and s-wave approximation. It may be applied to study the following fundamental problems: construction of quantum corrected black holes (BHs), inducing of primordial wormholes in the early Universe (this effect is confirmed) and the solution of initial singularity problem. The recently discovered anti-evaporation of multiple horizon BHs is discussed. The existance of such primordial BHs may be interpreted as SUSY manifestation. Quantum corrections to BHs thermodynamics maybe also discussed within such scheme., Comment: LaTeX file and two eps files, to appear in MPLA, Brief Reviews

Published
1999
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58. Can primordial wormholes be induced by GUTs at the early Universe?

Author

Nojiri, S., Obregon, O., Odintsov, S. D., and Osetrin, K. E.

Subjects
General Relativity and Quantum Cosmology
Abstract

Using large N, 4d anomaly induced one-loop effective action for conformally invariant matter (typical GUT multiplet) we study the possibility to induce the primordial spherically symmetric wormholes at the early Universe. The corresponding effective equations are obtained in two different coordinate frames. The numerical investigation of these equations is done for matter content corresponding to ${\cal N}=4$ SU(N) super Yang-Mills theory. For some choice of initial conditions, the induced wormhole solution with increasing throat radius and increasing red-shift function is found., Comment: LaTeX file, 11 pages, 2 eps files of figures, few misprints are corrected

Published
1999
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59. (Non) singular Kantowski-Sachs Universe from quantum spherically reduced matter

Author

Nojiri, S., Obregon, O., Odintsov, S. D., and Osetrin, K. E.

Subjects
High Energy Physics - Theory
Abstract

Using s-wave and large N approximation the one-loop effective action for 2d dilaton coupled scalars and spinors which are obtained by spherical reduction of 4d minimal matter is found. Quantum effective equations for reduced Einstein gravity are written. Their analytical solutions corresponding to 4d Kantowski-Sachs (KS) Universe are presented. For quantum-corrected Einstein gravity we get non-singular KS cosmology which represents 1) quantum-corrected KS cosmology which existed on classical level or 2)purely quantum solution which had no classical limit. The analogy with Nariai BH is briefly mentioned. For purely induced gravity (no Einstein term) we found general analytical solution but all KS cosmologies under discussion are singular. The corresponding equations of motion are reformulated as classical mechanics problem of motion of unit mass particle in some potential V., Comment: LaTeX file, 16 pages, a few misprints are corrected

Published
1999
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60. Possible quantum instability of primordial black holes

Author

Elizalde, E., Nojiri, S., and Odintsov, S. D.

Subjects
High Energy Physics - Theory
Abstract

Evidence for the possible existence of a quantum process opposite to the famous Hawking radiation (evaporation) of black holes is presented. This new phenomenon could be very relevant in the case of exotic multiple horizon Nariai black holes and in the context of common grand unified theories. This is clearly manifested in the case of the SO(10) GUT, that is here investigated in detail. The remarkable result is obtained, that anti-evaporation can occur there only in the SUSY version of the theory. It is thus concluded that the existence of primordial black holes in the present Universe might be considered as an evidence for supersymmetry., Comment: LaTeX, 7 pages, version to appear in PRD Rapid Communications

Published
1999
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61. Induced wormholes due to quantum effects of spherically reduced matter in large N approximation

Author

Nojiri, S., Obregon, O., Odintsov, S. D., and Osetrin, K. E.

Subjects
High Energy Physics - Theory
Abstract

Using one-loop effective action in large N and s-wave approximation we discuss the possibility to induce primordial wormholes at the early Universe. An analytical solution is found for self-consistent primordial wormhole with constant radius. Numerical study gives the wormhole solution with increasing throat radius and increasing red-shift function. There is also some indication to the possibility of a topological phase transition., Comment: LaTeX file, 2 eps figures, 9 pages, few misprints are corrected, numerics are changed

Published
1998
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62. Quantum evolution of Schwarzschild-de Sitter (Nariai) black holes

Author

Nojiri, S. and Odintsov, S. D.

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

We calculate the one-loop effective action for conformal matter (scalars, spinors and vectors) on spherically symmetric background. Such effective action (in large $N$ approximation and expansion on curvature) is used to study quantum aspects of Schwarzschild-de Sitter black holes (SdS BHs) in nearly degenerated limit (Nariai BH). We show that for all types of above matter SdS BHs may evaporate or anti-evaporate in accordance with recent observation by Bousso and Hawking for minimal scalars. Some remarks about energy flow for SdS BHs in regime of evaporation or anti-evaporation are also done. Study of no boundary condition shows that this condition supports anti-evaporation for nucleated BHs (at least in frames of our approximation). That indicates to the possibility that some pair created cosmological BHs may not only evaporate but also anti-evaporate. Hence, cosmological primordial BHs may survive much longer than it is expected., Comment: Latex file, 20 pages, shortened version

Published
1998
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63. Vacuum energy for the supersymmetric twisted D-brane in constant electromagnetic field

Author

Bytsenko, A. A., Goncalves, A. E., Nojiri, S., and Odintsov, S. D.

Subjects
High Energy Physics - Theory
Abstract

We calculate vacuum energy for twisted SUSY D-brane on toroidal background with constant magnetic or constant electric field. Its behaviour for toroidal D-brane (p=2) in constant electric field shows the presence of stable minimum for twisted versions of the theory. That indicates such a background maybe reasonable groundstate., Comment: LaTeX, 10 pages

Published
1998
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64. Conformal anomaly for dilaton coupled electromagnetic field

Author

Nojiri, S. and Odintsov, S. D.

Subjects
High Energy Physics - Theory
Abstract

The derivation of the conformal anomaly for dilaton coupled electromagnetic field in curved space is presented. The models of this sort naturally appear in stringy gravity or after spherical reduction of multidimensional Einstein-Maxwell theory. It is shown that unlike the case of minimal vector in curved space or dilaton coupled scalar the anomaly induced effective action cannot be derived. The reason is the same why anomaly induced effective action cannot be constructed for interacting theories (like QED) in curved space., Comment: Latex file, 10 pages

Published
1998
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65. Quantum effects of stringy and membranic nature for the swimming of micro-organisms in a fluid

Author

Elizalde, E., Kawamura, M., Nojiri, S., Odintsov, S. D., and Sugamoto, A.

Subjects
High Energy Physics - Theory
Abstract

The static potential is investigated in string and membrane theories coupled to $U(1)$ gauge fields (specifically, external magnetic fields) and with antisymmetric tensor fields. The explicit dependence of the potential on the shape of the extended objects is obtained, including a careful calculation of the quantum effects. Noting the features which are common to the dynamics of strings and membranes moving in background fields and to the swimming of micro-organisms in a fluid, the latter problem is studied. The Casimir energy of a micro-organism is estimated, taking into account the quantum effects and the backreaction from the outside fluid. The static potential is investigated in string and membrane theories coupled to $U(1)$ gauge fields (specifically, external magnetic fields) and with antisymmetric tensor fields. The explicit dependence of the potential on the shape of the extended objects is obtained, including a careful calculation of the quantum effects. Noting the features which are common to the dynamics of strings and membranes moving in background fields and to the swimming of micro-organisms in a fluid, the latter problem is studied. The Casimir energy of a micro-organism is estimated, taking into account the quantum effects and the backreaction from the outside fluid., Comment: Latex file, 16pp

Published
1995
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72. Black Holes with Electric and Magnetic Charges in F(R)$F(R)$ Gravity.

Author

Nashed, G. G. L. and Nojiri, S.

Subjects
*ELECTRIC charge, *BLACK holes, *FIRST law of thermodynamics, *HAWKING radiation, *GRAVITY, *ENTROPY, *SECOND law of thermodynamics
Abstract

We construct spherically symmetric and static solutions in F(R)$F(R)$ gravity coupled with electromagnetic fields. The solutions include new types of black holes with electric and magnetic charges. We show that the higher‐derivative terms make the curvature singularity much softer than that in the charged black holes in Einstein's general relativity. We calculate some thermodynamical quantities of the obtained black holes like entropy, Hawking radiation, and quasi‐local energy and we confirm that the black hole solutions satisfy the first law of thermodynamics. Finally, we study the stability analysis using the odd‐type mode and show that there are stable black hole solutions and the radial speed of the parity‐odd mode is unit, that is, the speed of light. The authors construct spherically symmetric and static solutions in F(R) gravity coupled with electromagnetic fields. The solutions include new types of black holes with electric and magnetic charges. It will be shown that the higher‐derivative terms make the curvature singularity much softer than that in the charged black holes in Einstein's general relativity. What follows are calculations of some thermodynamical quantities of the obtained black holes like entropy, Hawking radiation, and quasi‐local energy and the confirmation that the black hole solutions satisfy the first law of thermodynamics. Finally, the stability is analyzed using the odd‐type mode and it will be shown that there are stable black hole solutions and the radial speed of the parity‐odd mode is is just the speed of light. [ABSTRACT FROM AUTHOR]

Published
2023
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74. Ghost-free Gravity

Author

Nojiri, S., Odintsov, S.D., Oikonomou, V.K., and Popov, Arkady A.

Abstract

In this work we shall address the ghost issue of F(R,G) gravity, which is known to be plagued with ghost degrees of freedom. These ghosts occur due to the presence of higher than two derivatives in the field equations, and can arise even when considering cosmological perturbations, where superluminal modes may arise in the theory. If we consider the quantum theory, the ghosts generate the negative norm states, which give the negative probabilities, and therefore the ghosts are physically inconsistent. Motivated by the importance of F(R,G) gravity for providing viable inflationary and dark energy phenomenologies, in this work we shall provide a technique that can render F(R,G) gravity theories free from ghost degrees of freedom. This will be done by introducing two auxiliary scalar fields, and by employing the Lagrange multiplier technique, the theory is ghost free in the Einstein frame. Also the framework can be viewed as a reconstruction technique and can be used as a method in order to realize several cosmological evolutions of interest. We demonstrate how we can realize several cosmologically interesting phenomenologies by using the reconstruction technique.

Published
2021

76. Analytic charged BHs in ( ) Gravity

Author

Nashed, G.G.L. and Nojiri, S.

Abstract

In this article, we seek exact charged spherically symmetric black holes (BHs) with considering f(R) gravitational theory. This BH is characterized by convolution and error functions. Those two functions depend on a constant of integration which is responsible to make such a solution deviate from Einstein's general relativity (GR). The error function which constitutes the charge potential of the Maxwell field depends on the constant of integration and when this constant is vanishing we can not reproduce Reissner-Nordström BH in the lower order of f(R). This means that we can not reproduce Reissner-Nordström BH in lower-order–curvature theory, i.e., in GR limit f(R)=R, we can not get the well known charged BH. We study the physical properties of these BHs and show that it is asymptotically approached as a flat spacetime or approach AdS/dS spacetime. Also, we calculate the invariants of the BHS and show that the singularities are milder than those of BH's of GR. Additionally, we derive the stability condition through the use of geodesic deviation. Moreover, we study the thermodynamics of our BH and show the effect of the higher-order–curvature theory. Finally, we study the stability analysis using the odd-type mode and show that all the BHs are stable and have radial speed equal to one.

Published
2021

77. 2D F(R) gravity and AdS2/CFT1correspondence.

Author

Nojiri, S. and Odintsov, S. D.

Abstract

We studied the canonical structure of 2D F (R) gravity. Its equivalence with Jackiw-Teitelboim gravity is demonstrated when no matter is present. Then, due to AdS2/CFT1 correspondence, such F (R) gravity is equivalent to the Sachdev-Ye-Kitaev models. The singular limit of F (R) gravity is also studied. It is shown that in such a limit AdS2/CFT1 correspondence is not realized. [ABSTRACT FROM AUTHOR]

Published
2022
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84. Nontrivial black hole solutions in f(R) gravitational theory

Author

Nashed, G. G. L., Nojiri, S., Nashed, G. G. L., and Nojiri, S.

Abstract

Recent observation shows that general relativity (GR) is not valid in the strong regime. f(R) gravity, where R is the Ricci scalar, is regarded to be a good candidate able to cure the anomalies that appear in conventional general relativity. In this realm, we apply the equations of motion of f(R) gravity to a spherically symmetric spacetime with two unknown functions and derive original black hole (BH) solutions without any constraints on the Ricci scalar as well as on the form of f(R) gravity. Those solutions depend on a convolution function and are deviating from the Schwarzschild solution of the Einstein GR. These solutions are characterized by the gravitational mass of the system and the convolution function that in the asymptotic form gives extra terms that are responsible to make such BHs different from GR. Also, we show that these extra terms make the singularities of the invariants much weaker than those of the GR BH. We analyze such BHs using the trend of thermodynamics and show their consistency with well-known quantities in thermodynamics like Hawking radiation, entropy, and quasilocal energy. We also show that our BH solutions satisfy the first law of thermodynamics. Moreover, we study the stability analysis using the odd-type mode and show that all the derived BHs are stable and have radial speed equal to one. Finally, using geodesic deviations, we derive the stability conditions of these BHs.

Published
2020

87. essence ( ) Gravity Inflation

Author

Nojiri, S., Odintsov, S.D., and Oikonomou, V.K.

Subjects
Computer Science::Digital Libraries
Abstract

In this work we study a modified version of f(R) gravity in which higher order kinetic terms of a scalar field are added in the action of vacuum f(R) gravity. This type of theory is a type of k-essence f(R) gravity, and it belongs to the general class of f(R,ϕ,X) theories of gravity, where ϕ is a scalar field and X=12∂μϕ∂μϕ. We focus on the inflationary phenomenology of the model, in the slow-roll approximation, and we investigate whether viable inflationary evolutions can be realized in the context of this theory. We use two approaches, firstly by imposing the slow-roll conditions and by using a non-viable vacuum f(R) gravity. As we demonstrate, the spectral index of the primordial scalar perturbations and the tensor-to-scalar ratio of the resulting theory can be compatible with the latest observational data. In the second approach, we fix the functional form of the Hubble rate as a function of the e-foldings number, and we modify well-known vacuum f(R) gravity reconstruction techniques, in order to find the k-essence f(R) gravity which can realize the given Hubble rate. Accordingly, we calculate the slow-roll indices and the corresponding observational indices, and we also provide general formulas of these quantities in the slow-roll approximation. As we demonstrate, viability can be obtained in this case too, however the result is strongly model dependent. In addition, we discuss when ghosts can occur in the theory, and we investigate under which conditions ghosts can be avoided by using a particular class of models. Finally, we qualitatively discuss the existence of inflationary attractors for the non-slow-roll theory, and we provide hints towards finding general de Sitter attractors for the theory at hand.

Published
2019

98. Newton law in covariant unimodular F(R) gravity

Author

Nojiri S., Odintsov S., and Oikonomou V.

Subjects
General Relativity and Quantum Cosmology, Unimodular gravity, Newton law
Abstract

© 2016 World Scientific Publishing Company.We investigate the Newton law in the unimodular F(R) gravity. In the standard F(R) gravity, due to the extra scalar mode, there often appear the large corrections to the Newton law and such models are excluded by the experiments and/or the observations. In the unimodular F(R) gravity, however, the extra scalar mode become not to be dynamical due to the unimodular constraint and there is not any correction to the Newton law. Even in the unimodular Einstein gravity, the Newton law is reproduced but the mechanism is a little bit different from that in the unimodular F(R) gravity. We also investigate the unimodular F(R) gravity in the covariant formulation. In the covariant formulation, we include the three-form field. We show that the three-form field could not have any unwanted property, like ghost nor correction to the Newton law. In the covariant formulation, however, the above extra scalar mode becomes dynamical and could give a correction to the Newton law. We also show that there are no difference in the Friedmann-Robertson-Walker (FRW) dynamics in the non-covariant and covariant formulation.

Published
2016

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