Thermodynamic phase transition of a black hole in rainbow gravity

Feng, Zhong-Wen

doi:10.1016/j.physletb.2017.07.057

Cited by 99 publications

(44 citation statements)

References 79 publications

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“…The acceleration (82) contains the singularity due to 푖 ∼ 1/√ 2 − (k k); that is, at V = the acceleration becomes orthogonal to the velocity, but remains divergent. Besides, due to dependence of effective metric on spin, we arrive at rather unusual picture of the Universe with rainbow geometry (some models of doubly special relativity predict rainbow geometry at Planck scale [54][55][56][57]): there is no unique spacetime manifold for the Universe of spinning particles: each particle will probe its own three-dimensional geometry. We conclude that MPTD equations do not seem promising candidate for the description of a relativistic rotating body.…”

Section: Advances In Mathematical Physicsmentioning

confidence: 97%

Recent Progress on the Description of Relativistic Spin: Vector Model of Spinning Particle and Rotating Body with Gravimagnetic Moment in General Relativity

Дериглазов

Ramírez

2017

Advances in Mathematical Physics

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We review the recent results on development of vector models of spin and apply them to study the influence of spin-field interaction on the trajectory and precession of a spinning particle in external gravitational and electromagnetic fields. The formalism is developed starting from the Lagrangian variational problem, which implies both equations of motion and constraints which should be presented in a model of spinning particle. We present a detailed analysis of the resulting theory and show that it has reasonable properties on both classical and quantum level. We describe a number of applications and show how the vector model clarifies some issues presented in theoretical description of a relativistic spin: (A) one-particle relativistic quantum mechanics with positive energies and its relation with the Dirac equation and with relativistic Zitterbewegung; (B) spin-induced noncommutativity and the problem of covariant formalism; (C) three-dimensional acceleration consistent with coordinate-independence of the speed of light in general relativity and rainbow geometry seen by spinning particle; (D) paradoxical behavior of the Mathisson-PapapetrouTulczyjew-Dixon equations of a rotating body in ultrarelativistic limit, and equations with improved behavior.

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Section: Advances In Mathematical Physicsmentioning

confidence: 97%

Recent Progress on the Description of Relativistic Spin: Vector Model of Spinning Particle and Rotating Body with Gravimagnetic Moment in General Relativity

Дериглазов

Ramírez

2017

Advances in Mathematical Physics

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“…Note that the prediction of a minimal measurable length in order of Planck length in various theories of quantum gravity restricts the maximum energy that any particle can attain to the Planck energy. This implied the modification of linear momentum and also quantum commutation relations and results the modified dispersion relation, e.g., gravity's rainbow [50], see some particular cosmological [51][52][53] and astrophysical implications [54][55][56][57][58]. Moreover, this scale naturally arises in theories of quantum gravity in the form of an effective minimal uncertainly in positions ∆x 0 > 0.…”

Section: The Casimir Effect Under the Generalized Uncertainty Primentioning

confidence: 99%

Traversable wormholes supported by GUP corrected Casimir energy

2020

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In this paper, we investigate the effect of the Generalized Uncertainty Principle (GUP) in the Casimir wormhole spacetime recently proposed by Garattini [Eur. Phys. J. C (2019) 79: 951]. In particular, we consider three types of the GUP relations, firstly the Kempf, Mangano and Mann (KMM) model, secondly the Detournay, Gabriel and Spindel (DGS) model, and finally the so called type II model for GUP principle. To this end, we consider three specific models of the redshift function along with two different EoS of state given by P r (r) = ω r (r)ρ(r) along with P t (r) = ω t (r)P r (r) and obtain a class of asymptotically flat wormhole solutions supported by Casimir energy under the effect of GUP. Furthermore we check the null, weak, and strong condition at the wormhole throat with a radius r 0 , and show that in general the classical energy condition are violated by some arbitrary quantity at the wormhole throat. Importantly, we examine the wormhole geometry with semi-classical corrections via embedding diagrams. We also consider the ADM mass of the wormhole, the volume integral quantifier to calculate the amount of the exotic matter near the wormhole throat, and the deflection angle of light.

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“…Recently, according to the rainbow functions that were proposed by Magueijo and Smolin, we discussed the thermodynamics and phase transition of a spherically symmetric black hole. Our calculations showed that the RG changes the picture of black hole's thermodynamic phase transition [36]. In addition, we found three Hawking-Page-type phase transitions in the framework of the RG.…”

Section: Introductionmentioning

confidence: 55%

The thermodynamics and phase transition of a rainbow black hole

2019

Self Cite

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In this work, we construct a new kind of rainbow functions, which has generalized uncertainty principle parameter. Then, we investigate modified thermodynamic quantities and phase transition of rainbow Schwarzschild black hole by employing this new kind of rainbow functions. Our results demonstrate that the rainbow gravity and generalized uncertainty principle have a great effect on the picture of Hawking radiation. They prevent black holes from total evaporation and cause a remnant. In addition, after analyzing the modified local thermodynamic quantities, we find that the effect of rainbow gravity and the generalized uncertainty principle lead to one first-order phase transition, two second-order phase transitions, and two Hawking-Page-type phase transitions in the thermodynamic system of rainbow Schwarzschild black hole.

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Thermodynamic phase transition of a black hole in rainbow gravity

Cited by 99 publications

References 79 publications

Recent Progress on the Description of Relativistic Spin: Vector Model of Spinning Particle and Rotating Body with Gravimagnetic Moment in General Relativity

Recent Progress on the Description of Relativistic Spin: Vector Model of Spinning Particle and Rotating Body with Gravimagnetic Moment in General Relativity

Traversable wormholes supported by GUP corrected Casimir energy

The thermodynamics and phase transition of a rainbow black hole

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