Energy-momentum tensor in QCD: nucleon mass decomposition and mechanical equilibrium

Cédric Lorcé; Andreas Metz; Barbara Pasquini; Simone Rodini

doi:10.1007/JHEP11(2021)121

Energy-momentum tensor in QCD: nucleon mass decomposition and mechanical equilibrium

Cédric Lorcé
, Andreas Metz
, Barbara Pasquini
, Simone Rodini

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

Abstract

We review and examine in detail recent developments regarding the question of the nucleon mass decomposition. We discuss in particular the virial theorem in quantum field theory and its implications for the nucleon mass decomposition and mechanical equilibrium. We reconsider the renormalization of the QCD energy-momentum tensor in minimal-subtraction-type schemes and the physical interpretation of its components, as well as the role played by the trace anomaly and Poincaré symmetry. We also study the concept of “quantum anomalous energy” proposed in some works as a new contribution to the nucleon mass. Examining the various arguments, we conclude that the quantum anomalous energy is not a genuine contribution to the mass sum rule, as a consequence of translation symmetry.

Original language	English
Article number	121
Journal	Journal of High Energy Physics
Volume	2021
Issue number	11
DOIs	https://doi.org/10.1007/JHEP11(2021)121
Publication status	Published - 1 Nov 2021

Keywords

Anomalies in Field and String Theories
Perturbative QCD
Renormalization Regularization and Renormalons
Space-Time Symmetries

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10.1007/JHEP11(2021)121

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title = "Energy-momentum tensor in QCD: nucleon mass decomposition and mechanical equilibrium",

abstract = "We review and examine in detail recent developments regarding the question of the nucleon mass decomposition. We discuss in particular the virial theorem in quantum field theory and its implications for the nucleon mass decomposition and mechanical equilibrium. We reconsider the renormalization of the QCD energy-momentum tensor in minimal-subtraction-type schemes and the physical interpretation of its components, as well as the role played by the trace anomaly and Poincar{\'e} symmetry. We also study the concept of “quantum anomalous energy” proposed in some works as a new contribution to the nucleon mass. Examining the various arguments, we conclude that the quantum anomalous energy is not a genuine contribution to the mass sum rule, as a consequence of translation symmetry.",

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T1 - Energy-momentum tensor in QCD

T2 - nucleon mass decomposition and mechanical equilibrium

AU - Lorcé, Cédric

AU - Metz, Andreas

AU - Pasquini, Barbara

AU - Rodini, Simone

PY - 2021/11/1

Y1 - 2021/11/1

N2 - We review and examine in detail recent developments regarding the question of the nucleon mass decomposition. We discuss in particular the virial theorem in quantum field theory and its implications for the nucleon mass decomposition and mechanical equilibrium. We reconsider the renormalization of the QCD energy-momentum tensor in minimal-subtraction-type schemes and the physical interpretation of its components, as well as the role played by the trace anomaly and Poincaré symmetry. We also study the concept of “quantum anomalous energy” proposed in some works as a new contribution to the nucleon mass. Examining the various arguments, we conclude that the quantum anomalous energy is not a genuine contribution to the mass sum rule, as a consequence of translation symmetry.

AB - We review and examine in detail recent developments regarding the question of the nucleon mass decomposition. We discuss in particular the virial theorem in quantum field theory and its implications for the nucleon mass decomposition and mechanical equilibrium. We reconsider the renormalization of the QCD energy-momentum tensor in minimal-subtraction-type schemes and the physical interpretation of its components, as well as the role played by the trace anomaly and Poincaré symmetry. We also study the concept of “quantum anomalous energy” proposed in some works as a new contribution to the nucleon mass. Examining the various arguments, we conclude that the quantum anomalous energy is not a genuine contribution to the mass sum rule, as a consequence of translation symmetry.

KW - Anomalies in Field and String Theories

KW - Perturbative QCD

KW - Renormalization Regularization and Renormalons

KW - Space-Time Symmetries

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DO - 10.1007/JHEP11(2021)121

M3 - Article

AN - SCOPUS:85119524149

SN - 1126-6708

VL - 2021

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 11

M1 - 121

ER -

Energy-momentum tensor in QCD: nucleon mass decomposition and mechanical equilibrium

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