2020
DOI: 10.1103/physrevd.101.084004
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Effects of Planck-scale-modified dispersion relations on the thermodynamics of charged black holes

Abstract: Considering corrections produced by modified dispersion relations on the equation of state parameter of radiation, we study the induced the black hole metric inspired by Kiselev's ansatz, thus defining a deformed Reissner-Nordström metric. In particular, we consider thermodynamic properties of such black hole from the combined viewpoints of the modified equation of state parameter and the phenomenological approach to the quantum gravity problem called rainbow gravity.

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Cited by 15 publications
(7 citation statements)
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“…5, 6, and 7 respectively. Moreover, the thermal quantities were also calculated [38][39][40][41][42][43] into different contexts. In the context of CMB, all of them turned out to have no contribution to our calculations.…”
Section: Thermodynamical Aspects Of Cpt-even Higher-derivative LV Theorymentioning
confidence: 99%
“…5, 6, and 7 respectively. Moreover, the thermal quantities were also calculated [38][39][40][41][42][43] into different contexts. In the context of CMB, all of them turned out to have no contribution to our calculations.…”
Section: Thermodynamical Aspects Of Cpt-even Higher-derivative LV Theorymentioning
confidence: 99%
“…Unfortunately, it is difficult to solve and obtain the low energy limit applying this dispersion relation in Eq. ( 7) and (8). The best way to do this is by separating the energy density in a contribution of undeformed special relativity ε sr and correction terms ε msr .…”
Section: Second Casementioning
confidence: 99%
“…In addition, the thermodynamics of such a compact object produced by these modifications can induce an uncertainty in the geometrical location of the horizon. [8]. Besides that, effects of uncertainties in the location of the horizon of a black hole due to Planck scale Generalized Uncertainty Principles can be interpreted, in fact, as due to a horizonless compact object, whose phenomenological possibilities have been recently investigated in [9].…”
Section: Introductionmentioning
confidence: 99%
“…Most prominent models which introduce an additional observer independent scale to the speed of light are doubly or deformed special relativity (DSR) [4][5][6], more generally deformed relativistic kinematics [7][8][9][10] and non-commutative spacetime geometries [11][12][13][14]. Furthermore, MDRs describe the propagation of particles and fields on quantum spacetimes constructed in string theory [15,16] or Loop quantum gravity [17][18][19][20]. Moreover, MDRs describe the point particle limit of the Standard-Model Extension (SME) [21], which studies the consequences of adding non local Lorentz invariant terms to the standard model of particle physics, and the point particle limit of effective field theories which describe the propagation of fields through media [22][23][24][25][26][27][28][29].…”
Section: Introductionmentioning
confidence: 99%