Thermodynamics of static solutions in ( n + 1 )-dimensional quintic quasitopological gravity

Based on the fact that some important theories like string and M theories predict spacetime with higher dimensions, so, in this paper, we aim to construct a theory of quintic quasitopological gravity in higher dimensions ( n ≥ 5 ). This ( n + 1 )-dimensional quintic quasitopological gravity can also...

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Veröffentlicht in:	Physical review. D 2019-12, Vol.100 (12), p.1, Article 124018
Hauptverfasser:	Bazrafshan, A., Naeimipour, F., Olamaei, A. R., Ghanaatian, M.
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Sprache:	eng
Schlagworte:	Dimensional stability Energy conservation law Gravitation Numerical methods Spacetime Stability analysis String theory Thermal stability Thermodynamics
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creator	Bazrafshan, A. Naeimipour, F. Olamaei, A. R. Ghanaatian, M.
description	Based on the fact that some important theories like string and M theories predict spacetime with higher dimensions, so, in this paper, we aim to construct a theory of quintic quasitopological gravity in higher dimensions ( n ≥ 5 ). This ( n + 1 )-dimensional quintic quasitopological gravity can also lead to the most second-order linearized field equations in the spherically symmetric spacetimes. These equations cannot be solved exactly, and so we obtain a new class of ( n + 1 )-dimensional static solutions with numeric methods. For large values of mass parameter m , these solutions yield to black holes with two horizons in AdS and flat spacetimes. For dS solutions, there are two values, m ext and m cri , which yield to a black hole with three horizons for m ext < m < m cri . We also calculate thermodynamic quantities for this black hole such as entropy and temperature and check the first law of thermodynamics. Finally, we analyze the thermal stability of the ( n + 1 )-dimensional static black hole at the horizon r + . Unlike dS solutions, AdS ones have thermal stability for each value of k , but flat solutions are stable with just k = 1.
doi_str_mv	10.1103/PhysRevD.100.124018
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R. ; Ghanaatian, M.</creator><creatorcontrib>Bazrafshan, A. ; Naeimipour, F. ; Olamaei, A. R. ; Ghanaatian, M.</creatorcontrib><description>Based on the fact that some important theories like string and M theories predict spacetime with higher dimensions, so, in this paper, we aim to construct a theory of quintic quasitopological gravity in higher dimensions ( n ≥ 5 ). This ( n + 1 )-dimensional quintic quasitopological gravity can also lead to the most second-order linearized field equations in the spherically symmetric spacetimes. These equations cannot be solved exactly, and so we obtain a new class of ( n + 1 )-dimensional static solutions with numeric methods. For large values of mass parameter m , these solutions yield to black holes with two horizons in AdS and flat spacetimes. For dS solutions, there are two values, m ext and m cri , which yield to a black hole with three horizons for m ext < m < m cri . 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subjects	Dimensional stability Energy conservation law Gravitation Numerical methods Spacetime Stability analysis String theory Thermal stability Thermodynamics
title	Thermodynamics of static solutions in ( n + 1 )-dimensional quintic quasitopological gravity
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