Complexity for Conformal Field Theories in General Dimensions

Nicolas Chagnet; Shira Chapman; Jan de Boer; Claire Zukowski

doi:10.1103/PhysRevLett.128.051601

Complexity for Conformal Field Theories in General Dimensions

Nicolas Chagnet
, Shira Chapman
, Jan de Boer
, Claire Zukowski

Department of Physics

Research output: Contribution to journal › Article › peer-review

62 Scopus citations

Abstract

We study circuit complexity for conformal field theory states in an arbitrary number of dimensions. Our circuits start from a primary state and move along a unitary representation of the Lorentzian conformal group. Different choices of distance functions can be understood in terms of the geometry of coadjoint orbits of the conformal group. We explicitly relate our circuits to timelike geodesics in anti-de Sitter space and the complexity metric to distances between these geodesics. We extend our method to circuits in other symmetry groups using a group theoretic generalization of the notion of coherent states.

Original language	English
Article number	051601
Journal	Physical Review Letters
Volume	128
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.128.051601
State	Published - 4 Feb 2022

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.128.051601

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abstract = "We study circuit complexity for conformal field theory states in an arbitrary number of dimensions. Our circuits start from a primary state and move along a unitary representation of the Lorentzian conformal group. Different choices of distance functions can be understood in terms of the geometry of coadjoint orbits of the conformal group. We explicitly relate our circuits to timelike geodesics in anti-de Sitter space and the complexity metric to distances between these geodesics. We extend our method to circuits in other symmetry groups using a group theoretic generalization of the notion of coherent states.",

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N2 - We study circuit complexity for conformal field theory states in an arbitrary number of dimensions. Our circuits start from a primary state and move along a unitary representation of the Lorentzian conformal group. Different choices of distance functions can be understood in terms of the geometry of coadjoint orbits of the conformal group. We explicitly relate our circuits to timelike geodesics in anti-de Sitter space and the complexity metric to distances between these geodesics. We extend our method to circuits in other symmetry groups using a group theoretic generalization of the notion of coherent states.

AB - We study circuit complexity for conformal field theory states in an arbitrary number of dimensions. Our circuits start from a primary state and move along a unitary representation of the Lorentzian conformal group. Different choices of distance functions can be understood in terms of the geometry of coadjoint orbits of the conformal group. We explicitly relate our circuits to timelike geodesics in anti-de Sitter space and the complexity metric to distances between these geodesics. We extend our method to circuits in other symmetry groups using a group theoretic generalization of the notion of coherent states.

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Complexity for Conformal Field Theories in General Dimensions

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