Related papers: Four-mode squeezed states in de Sitter space: A study with two field interacting quantum system

Four-mode squeezed states in de Sitter space: A study with two field interacting quantum system

URL: http://arxiv.org/abs/2203.15815v2
Date: Sun, 21 Aug 2022 13:48:17 GMT
Title: Four-mode squeezed states in de Sitter space: A study with two field interacting quantum system
Authors: Sayantan Choudhury, Sudhakar Panda, Nilesh Pandey, Abhishek Roy
Abstract summary: We study the application of four-mode squeezed states in the cosmological context. We study two weakly coupled scalar fields in the planar patch of the de Sitter space.
Score: 0.7590510456875605
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this paper we study the application of four-mode squeezed states in the cosmological context, studying two weakly coupled scalar fields in the planar patch of the de Sitter space. We construct the four-mode squeezed state formalism and connect this concept with the Hamiltonian of the two coupled inverted harmonic oscillators having a time-dependent effective frequency in the planar patch of the de Sitter space. Further, the corresponding evolution operator for the quantum Euclidean vacuum state has been constructed, which captures its dynamics. Using the Heisenberg picture coupled differential equations describing the time evolution for all squeezing parameters (amplitude, phase and angle) have been obtained, for the weakly coupled two scalar field model. With the help of these evolutions for the coupled system, we simulate the dynamics of the squeezing parameters in terms of conformal time. From our analysis, we observe interesting dynamics, which helps us to explore various underlying physical implications of the weakly coupled two scalar field system in the planar patch of the de Sitter cosmological background.

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