Model-independent results on parity violation in the trace anomaly

Rémy Larue; Jérémie Quevillon; Roman Zwicky

Model-independent results on parity violation in the trace anomaly

Rémy Larue^*, Jérémie Quevillon, Roman Zwicky

^*Corresponding author for this work

School of Physics and Astronomy

Research output: Contribution to conference › Other › peer-review

Abstract

Anomalous parity violation in four dimensions would be significant for phenomenology (baryogenesis, gravitational waves) and mathematical physics. Over the past decade, there has been a controversy in the literature as to whether free Weyl fermions give rise to (anomalous) parity violation in the trace of the energy momentum tensor; expressed by the Pontryagin densities R ˜R and F ˜F in the gravity and the gauge sector respectively. In Ref. 1, we have shown, using path integral methods, that the trace anomaly of a free Weyl fermion does not violate parity (i.e the absence of the Pontryagin density). In a subsequent work 2 we came to the stronger conclusion that for any theory compatible with dimensional regularisation, the Pontryagin-terms are equally absent. It is the finiteness of the diffeomorphism, the Lorentz and the gauge anomalies that prevents anomalous parity violation.

Original language	English
Pages	1-15
Number of pages	15
Publication status	Published - 1 Nov 2024
Event	Seventeenth Marcel Grossmann Meeting - Aurum, the ‘Gabriele d’Annunzio’ University and ICRANet , Pescara, Italy Duration: 7 Jul 2024 → 12 Jul 2024 https://indico.icranet.org/event/8/

Conference

Conference	Seventeenth Marcel Grossmann Meeting
Country/Territory	Italy
City	Pescara
Period	7/07/24 → 12/07/24
Internet address	https://indico.icranet.org/event/8/

Keywords / Materials (for Non-textual outputs)

quantum field theory in curved spacetime
weyl anomaly
parity violation
conformal field theory

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https://arxiv.org/abs/2411.00571

Cite this

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title = "Model-independent results on parity violation in the trace anomaly",

abstract = "Anomalous parity violation in four dimensions would be significant for phenomenology (baryogenesis, gravitational waves) and mathematical physics. Over the past decade, there has been a controversy in the literature as to whether free Weyl fermions give rise to (anomalous) parity violation in the trace of the energy momentum tensor; expressed by the Pontryagin densities R ˜R and F ˜F in the gravity and the gauge sector respectively. In Ref. 1, we have shown, using path integral methods, that the trace anomaly of a free Weyl fermion does not violate parity (i.e the absence of the Pontryagin density). In a subsequent work 2 we came to the stronger conclusion that for any theory compatible with dimensional regularisation, the Pontryagin-terms are equally absent. It is the finiteness of the diffeomorphism, the Lorentz and the gauge anomalies that prevents anomalous parity violation.",

keywords = "quantum field theory in curved spacetime, weyl anomaly, parity violation, conformal field theory",

author = "R{\'e}my Larue and J{\'e}r{\'e}mie Quevillon and Roman Zwicky",

note = "Contribution to the 17th Marcel Grossmann Meeting; Seventeenth Marcel Grossmann Meeting ; Conference date: 07-07-2024 Through 12-07-2024",

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language = "English",

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TY - CONF

T1 - Model-independent results on parity violation in the trace anomaly

AU - Larue, Rémy

AU - Quevillon, Jérémie

AU - Zwicky, Roman

N1 - Contribution to the 17th Marcel Grossmann Meeting

PY - 2024/11/1

Y1 - 2024/11/1

N2 - Anomalous parity violation in four dimensions would be significant for phenomenology (baryogenesis, gravitational waves) and mathematical physics. Over the past decade, there has been a controversy in the literature as to whether free Weyl fermions give rise to (anomalous) parity violation in the trace of the energy momentum tensor; expressed by the Pontryagin densities R ˜R and F ˜F in the gravity and the gauge sector respectively. In Ref. 1, we have shown, using path integral methods, that the trace anomaly of a free Weyl fermion does not violate parity (i.e the absence of the Pontryagin density). In a subsequent work 2 we came to the stronger conclusion that for any theory compatible with dimensional regularisation, the Pontryagin-terms are equally absent. It is the finiteness of the diffeomorphism, the Lorentz and the gauge anomalies that prevents anomalous parity violation.

AB - Anomalous parity violation in four dimensions would be significant for phenomenology (baryogenesis, gravitational waves) and mathematical physics. Over the past decade, there has been a controversy in the literature as to whether free Weyl fermions give rise to (anomalous) parity violation in the trace of the energy momentum tensor; expressed by the Pontryagin densities R ˜R and F ˜F in the gravity and the gauge sector respectively. In Ref. 1, we have shown, using path integral methods, that the trace anomaly of a free Weyl fermion does not violate parity (i.e the absence of the Pontryagin density). In a subsequent work 2 we came to the stronger conclusion that for any theory compatible with dimensional regularisation, the Pontryagin-terms are equally absent. It is the finiteness of the diffeomorphism, the Lorentz and the gauge anomalies that prevents anomalous parity violation.

KW - quantum field theory in curved spacetime

KW - weyl anomaly

KW - parity violation

KW - conformal field theory

M3 - Other

SP - 1

EP - 15

T2 - Seventeenth Marcel Grossmann Meeting

Y2 - 7 July 2024 through 12 July 2024

ER -

Model-independent results on parity violation in the trace anomaly

Abstract

Conference

Keywords / Materials (for Non-textual outputs)

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