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Double-trace deformation in Keldysh field theory

arXiv
Authors: Xiangyi Meng

Year

2020

Paper ID

18569

Status

Preprint

Abstract Read

~2 min

Abstract Words

214

Citations

N/A

Abstract

The Keldysh formalism is capable of describing driven-dissipative dynamics of open quantum systems as nonunitary effective field theories that are not necessarily thermodynamical, thus often exhibiting new physics. Here, we introduce a general Keldysh action that maximally obeys Weinbergian constraints, including locality, Poincaré invariance, and two "CPT" constraints: complete positivity and trace preserving as well as charge, parity, and time reversal symmetry. We find that the perturbative Lindblad term responsible for driven-dissipative dynamics introduced therein has the natural form of a double-trace deformation mathcal{O}2, which, in the large N limit, possibly leads to a new nonthermal conformal fixed point. This fixed point is IR when Δ<d/2 or UV when Δ>d/2 given d the dimensions of spacetime and Δ the scaling dimension of mathcal{O}. Such a UV fixed point being not forbidden by Weinbergian constraints may suggest its existence and even completion of itself, in contrast to the common sense that dissipation effects are always IR relevant. This observation implies that driven-dissipative dynamics is much richer than thermodynamics, differing in not only its noncompliance with thermodynamic symmetry (e.g., the fluctuation-dissipation relation) but its UV/IR relevance as well. Examples including a (0+1)-d harmonic oscillator under continuous measurement and a (4-ε)-d classic O(N) vector model with quartic interactions are studied.

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  • The Keldysh formalism is capable of describing driven-dissipative dynamics of open quantum systems as nonunitary effective field theories that are not necessarily...

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