Studies on Quasinormal Modes and Late-time Tails in Black Hole Spacetimes


Autoria(s): Nijo Varghese; Prof V. C. Kuriakose
Data(s)

26/08/2016

26/08/2016

14/10/2012

Resumo

Black hole's response to external perturbations will carry significant information about these exotic objects. Its response, shortly after the initial `kick', is known to be ruled by the damped oscillation of the perturbating eld, called quasinormal modes(QNMs), followed by the tails of decay and is the characteristic of the background black hole spacetime. In the last three decades, several shortcomings came out in the Einstein's General Theory of Relativity(GTR). Such issues come, especially, from observational cosmology and quantum eld theory. In the rst case, for example, the observed accelerated expansion of the universe and the hypothesized mysterious dark energy still lack a satisfactory explanation. Secondly, GTR is a classical theory which does not work as a fundamental theory, when one wants to achieve a full quantum description of gravity. Due to these facts modi cation to GTR or alternative theories for gravity have been considered. Two potential approaches towards these problems are the quintessence model for dark energy and Ho rava-Lifshitz(HL) gravity. Quintessence is a dynamical model of dark energy which is often realized by scalar eld mechanism. HL gravity is the recently proposed theory of gravity, which is renormalizable in power counting arguments. The two models are considered as a potential candidate in explaining these issues.

Identificador

http://dyuthi.cusat.ac.in/purl/5115

Idioma(s)

en

Publicador

Cochin University of Science and Technology

Palavras-Chave #Physcs #Theatrical Physics #Astrophysics #Black Holes #Dark stars #Quasinormal modes
Tipo

Thesis