Related papers: Causality Constraint on Circuit Complexity from $COSMOEFT$

Causality Constraint on Circuit Complexity from $COSMOEFT$

URL: http://arxiv.org/abs/2111.11468v3
Date: Wed, 25 Jan 2023 15:12:10 GMT
Title: Causality Constraint on Circuit Complexity from $COSMOEFT$
Authors: Sayantan Choudhury, Arghya Mukherjee, Nilesh Pandey, Abhishek Roy
Abstract summary: We study the behaviour of the circuit complexity measures and entanglement entropy with respect to the scale factor and $c_s$. We find various interesting unexplored features within the window, $0.024leq c_sleq 1$, which is supported by both causality and cosmological observation.
Score: 1.5643170704979468
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this article, we investigate the physical implications of the causality constraint via effective sound speed $c_s(\leq 1)$ on Quantum Circuit Complexity(QCC) in the framework of Cosmological Effective Field Theory (COSMOEFT) using the two-mode squeezed quantum states. This COSMOEFT setup is constructed using the St$\ddot{\text{u}}$ckelberg trick with the help of the lowest dimensional operators, which are broken under time diffeomorphism. In this setup, we consider only the contribution from two derivative terms in the background quasi de Sitter metric. Next, we compute the relevant measures of circuit complexity and their cosmological evolution for different $c_s$ by following two different approaches, Nielsen's and Covariance matrix method. Using this setup, we also compute the Von-Neumann and R\'enyi entropy, which finally establishes an underlying connecting relationship between the entanglement entropy and circuit complexity. Essentially, we study the behaviour of the circuit complexity measures and entanglement entropy with respect to the scale factor and $c_s$ and find various interesting unexplored features within the window, $0.024\leq c_s\leq 1$, which is supported by both causality and cosmological observation. Finally, we also comment on the connection between the circuit complexity, entanglement entropy and equilibrium temperature for different $c_s$ lying within the mentioned window.

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