PT symmetry, pattern formation, and finite-density QCD

Moses A. Schindler; Stella T. Schindler; Michael C. Ogilvie

doi:10.1088/1742-6596/2038/1/012022

PT symmetry, pattern formation, and finite-density QCD

Moses A. Schindler
, Stella T. Schindler
, Michael C. Ogilvie

Department of Physics

Research output: Contribution to journal › Conference article › peer-review

9 Scopus citations

Abstract

A longstanding issue in the study of quantum chromodynamics (QCD) is its behavior at nonzero baryon density, which has implications for many areas of physics. The path integral has a complex integrand when the quark chemical potential is nonzero and therefore has a sign problem, but it also has a generalized PT symmetry. We review some new approaches to PT -symmetric field theories, including both analytical techniques and methods for lattice simulation. We show that PT -symmetric field theories with more than one field generally have a much richer phase structure than their Hermitian counterparts, including stable phases with patterning behavior. The case of a PT -symmetric extension of a φ⁴ model is explained in detail. The relevance of these results to finite density QCD is explained, and we show that a simple model of finite density QCD exhibits a patterned phase in its critical region.

Original language	English
Article number	012022
Journal	Journal of Physics: Conference Series
Volume	2038
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/2038/1/012022
State	Published - Oct 25 2021
Event	Virtual Seminar Series on Pseudo-Hermitian Hamiltonians in Quantum Physics, PTSeminar 2020 - London, Virtual, United Kingdom Duration: Mar 5 2021 → …

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10.1088/1742-6596/2038/1/012022

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title = "PT symmetry, pattern formation, and finite-density QCD",

abstract = "A longstanding issue in the study of quantum chromodynamics (QCD) is its behavior at nonzero baryon density, which has implications for many areas of physics. The path integral has a complex integrand when the quark chemical potential is nonzero and therefore has a sign problem, but it also has a generalized PT symmetry. We review some new approaches to PT -symmetric field theories, including both analytical techniques and methods for lattice simulation. We show that PT -symmetric field theories with more than one field generally have a much richer phase structure than their Hermitian counterparts, including stable phases with patterning behavior. The case of a PT -symmetric extension of a φ4 model is explained in detail. The relevance of these results to finite density QCD is explained, and we show that a simple model of finite density QCD exhibits a patterned phase in its critical region.",

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AU - Schindler, Moses A.

AU - Schindler, Stella T.

AU - Ogilvie, Michael C.

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N2 - A longstanding issue in the study of quantum chromodynamics (QCD) is its behavior at nonzero baryon density, which has implications for many areas of physics. The path integral has a complex integrand when the quark chemical potential is nonzero and therefore has a sign problem, but it also has a generalized PT symmetry. We review some new approaches to PT -symmetric field theories, including both analytical techniques and methods for lattice simulation. We show that PT -symmetric field theories with more than one field generally have a much richer phase structure than their Hermitian counterparts, including stable phases with patterning behavior. The case of a PT -symmetric extension of a φ4 model is explained in detail. The relevance of these results to finite density QCD is explained, and we show that a simple model of finite density QCD exhibits a patterned phase in its critical region.

AB - A longstanding issue in the study of quantum chromodynamics (QCD) is its behavior at nonzero baryon density, which has implications for many areas of physics. The path integral has a complex integrand when the quark chemical potential is nonzero and therefore has a sign problem, but it also has a generalized PT symmetry. We review some new approaches to PT -symmetric field theories, including both analytical techniques and methods for lattice simulation. We show that PT -symmetric field theories with more than one field generally have a much richer phase structure than their Hermitian counterparts, including stable phases with patterning behavior. The case of a PT -symmetric extension of a φ4 model is explained in detail. The relevance of these results to finite density QCD is explained, and we show that a simple model of finite density QCD exhibits a patterned phase in its critical region.

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DO - 10.1088/1742-6596/2038/1/012022

M3 - Conference article

AN - SCOPUS:85119259154

SN - 1742-6588

VL - 2038

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

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T2 - Virtual Seminar Series on Pseudo-Hermitian Hamiltonians in Quantum Physics, PTSeminar 2020

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ER -

PT symmetry, pattern formation, and finite-density QCD

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