2022
DOI: 10.48550/arxiv.2203.05589
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Generalized quasi-topological gravities: the whole shebang

Abstract: Generalized quasi-topological gravities (GQTGs) are higher-curvature extensions of Einstein gravity in D-dimensions. Their defining properties include possessing second-order linearized equations of motion around maximally symmetric backgrounds as well as non-hairy generalizations of Schwarzschild's black hole characterized by a single function, f (r) ≡ −g tt = g −1 rr , which satisfies a second-order differential equation. In arXiv:1909.07983 GQTGs were shown to exist at all orders in curvature and for genera… Show more

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“…In sum, we learn that in three dimensions there exist no non-trivial GQTs. This situation is very different from higher-dimensions: in D = 4 there exists one independent non-trivial GQT density for every n 3 whereas for D 5 there actually exist n − 1 independent inequivalent GQT densities for every n-namely, there exist n − 1 densities of order n each of which makes a functionally different contribution to the equation of f (r) [93]. As a matter of fact, the triviality of the three-dimensional case unveiled here is not so surprising given that all higher-curvature theories admit the BTZ solution-as opposed to non-trivial GQTs in higher dimensions, which admit modifications of Schwarzschild as solutions, but not Schwarzschild itself.…”
Section: All Gqt Densities Emanate From the Same Sextic Densitymentioning
confidence: 93%
“…In sum, we learn that in three dimensions there exist no non-trivial GQTs. This situation is very different from higher-dimensions: in D = 4 there exists one independent non-trivial GQT density for every n 3 whereas for D 5 there actually exist n − 1 independent inequivalent GQT densities for every n-namely, there exist n − 1 densities of order n each of which makes a functionally different contribution to the equation of f (r) [93]. As a matter of fact, the triviality of the three-dimensional case unveiled here is not so surprising given that all higher-curvature theories admit the BTZ solution-as opposed to non-trivial GQTs in higher dimensions, which admit modifications of Schwarzschild as solutions, but not Schwarzschild itself.…”
Section: All Gqt Densities Emanate From the Same Sextic Densitymentioning
confidence: 93%