Thermalization Phenomena in Quenched Quantum Brownian Motion in De Sitter Space

Banerjee, Subhashish ; Choudhury, Sayantan ; Chowdhury, Satyaki ; Knaute, Johannes ; Panda, Sudhakar ; Shirish, K. (2021) Thermalization Phenomena in Quenched Quantum Brownian Motion in De Sitter Space Arxiv Publications.

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Related URL: http://dx.doi.org/arXiv:2104.10692

Abstract

In this article, we study the quantum field theoretic generalization of the Caldeira-Leggett model to describe the Brownian Motion in general curved space-time considering interactions between two scalar fields in a classical gravitational background. The thermalization phenomena is then studied from the obtained de Sitter solution using quantum quench from one scalar field model obtained from path integrated effective action in Euclidean signature. We consider an instantaneous quench in the time-dependent mass protocol of the field of our interest. We find that the dynamics of the field post-quench can be described in terms of the state of the generalized Calabrese-Cardy (gCC) form and computed the different types of two-point correlation functions in this context. We explicitly found the conserved charges of W∞ algebra that represents the gCC state after a quench in de Sitter space and found it to be significantly different from the flat space-time results. We extend our study for the different two-point correlation functions not only considering the pre-quench state as the ground state, but also a squeezed state. We found that irrespective of the pre-quench state, the post quench state can be written in terms of the gCC state showing that the subsystem of our interest thermalizes in de Sitter space. Furthermore, we provide a general expression for the two-point correlators and explicitly show the thermalization process by considering a thermal Generalized Gibbs ensemble (GGE). Finally, from the equal time momentum dependent counterpart of the obtained results for the two-point correlators, we have studied the hidden features of the power spectra and studied its consequences for different choices of the quantum initial conditions.

Item Type:Other
Source:Copyright of this article belongs to Arxiv Publications.
ID Code:124190
Deposited On:08 Nov 2021 08:58
Last Modified:08 Nov 2021 08:58

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