Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Roberto Tanzi
  • Domenico Giulini

Organisationseinheiten

Externe Organisationen

  • Universität Bremen
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer94
FachzeitschriftJournal of high energy physics
Jahrgang2020
Ausgabenummer10
PublikationsstatusVeröffentlicht - 14 Okt. 2020

Abstract

We investigate the asymptotic symmetry group of the free SU(N)-Yang-Mills theory using the Hamiltonian formalism. We closely follow the strategy of Henneaux and Troessaert who successfully applied the Hamiltonian formalism to the case of gravity and electrodynamics, thereby deriving the respective asymptotic symmetry groups of these theories from clear-cut first principles. These principles include the minimal assumptions that are necessary to ensure the existence of Hamiltonian structures (phase space, symplectic form, differentiable Hamiltonian) and, in case of Poincaré invariant theories, a canonical action of the Poincaré group. In the first part of the paper we show how these requirements can be met in the non-abelian SU(N)-Yang-Mills case by imposing suitable fall-off and parity conditions on the fields. We observe that these conditions admit neither non-trivial asymptotic symmetries nor non-zero global charges. In the second part of the paper we discuss possible gradual relaxations of these conditions by following the same strategy that Henneaux and Troessaert had employed to remedy a similar situation in the electromagnetic case. Contrary to our expectation and the findings of Henneaux and Troessaert for the abelian case, there seems to be no relaxation that meets the requirements of a Hamiltonian formalism and allows for non-trivial asymptotic symmetries and charges. Non-trivial asymptotic symmetries and charges are only possible if either the Poincaré group fails to act canonically or if the formal expression for the symplectic form diverges, i.e. the form does not exist. This seems to hint at a kind of colour-confinement built into the classical Hamiltonian formulation of non-abelian gauge theories.

ASJC Scopus Sachgebiete

Zitieren

Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation. / Tanzi, Roberto; Giulini, Domenico.
in: Journal of high energy physics, Jahrgang 2020, Nr. 10, 94, 14.10.2020.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Tanzi R, Giulini D. Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation. Journal of high energy physics. 2020 Okt 14;2020(10):94. doi: 10.48550/arXiv.2006.07268, 10.1007/JHEP10(2020)094, 10.15488/12624
Tanzi, Roberto ; Giulini, Domenico. / Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation. in: Journal of high energy physics. 2020 ; Jahrgang 2020, Nr. 10.
Download
@article{b6ad2f9fb6414e9ba60a72f08aa129a0,
title = "Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation",
abstract = "We investigate the asymptotic symmetry group of the free SU(N)-Yang-Mills theory using the Hamiltonian formalism. We closely follow the strategy of Henneaux and Troessaert who successfully applied the Hamiltonian formalism to the case of gravity and electrodynamics, thereby deriving the respective asymptotic symmetry groups of these theories from clear-cut first principles. These principles include the minimal assumptions that are necessary to ensure the existence of Hamiltonian structures (phase space, symplectic form, differentiable Hamiltonian) and, in case of Poincar{\'e} invariant theories, a canonical action of the Poincar{\'e} group. In the first part of the paper we show how these requirements can be met in the non-abelian SU(N)-Yang-Mills case by imposing suitable fall-off and parity conditions on the fields. We observe that these conditions admit neither non-trivial asymptotic symmetries nor non-zero global charges. In the second part of the paper we discuss possible gradual relaxations of these conditions by following the same strategy that Henneaux and Troessaert had employed to remedy a similar situation in the electromagnetic case. Contrary to our expectation and the findings of Henneaux and Troessaert for the abelian case, there seems to be no relaxation that meets the requirements of a Hamiltonian formalism and allows for non-trivial asymptotic symmetries and charges. Non-trivial asymptotic symmetries and charges are only possible if either the Poincar{\'e} group fails to act canonically or if the formal expression for the symplectic form diverges, i.e. the form does not exist. This seems to hint at a kind of colour-confinement built into the classical Hamiltonian formulation of non-abelian gauge theories.",
keywords = "Gauge Symmetry, Global Symmetries, Space-Time Symmetries",
author = "Roberto Tanzi and Domenico Giulini",
year = "2020",
month = oct,
day = "14",
doi = "10.48550/arXiv.2006.07268",
language = "English",
volume = "2020",
journal = "Journal of high energy physics",
issn = "1029-8479",
publisher = "Springer Verlag",
number = "10",

}

Download

TY - JOUR

T1 - Asymptotic symmetries of Yang-Mills fields in Hamiltonian formulation

AU - Tanzi, Roberto

AU - Giulini, Domenico

PY - 2020/10/14

Y1 - 2020/10/14

N2 - We investigate the asymptotic symmetry group of the free SU(N)-Yang-Mills theory using the Hamiltonian formalism. We closely follow the strategy of Henneaux and Troessaert who successfully applied the Hamiltonian formalism to the case of gravity and electrodynamics, thereby deriving the respective asymptotic symmetry groups of these theories from clear-cut first principles. These principles include the minimal assumptions that are necessary to ensure the existence of Hamiltonian structures (phase space, symplectic form, differentiable Hamiltonian) and, in case of Poincaré invariant theories, a canonical action of the Poincaré group. In the first part of the paper we show how these requirements can be met in the non-abelian SU(N)-Yang-Mills case by imposing suitable fall-off and parity conditions on the fields. We observe that these conditions admit neither non-trivial asymptotic symmetries nor non-zero global charges. In the second part of the paper we discuss possible gradual relaxations of these conditions by following the same strategy that Henneaux and Troessaert had employed to remedy a similar situation in the electromagnetic case. Contrary to our expectation and the findings of Henneaux and Troessaert for the abelian case, there seems to be no relaxation that meets the requirements of a Hamiltonian formalism and allows for non-trivial asymptotic symmetries and charges. Non-trivial asymptotic symmetries and charges are only possible if either the Poincaré group fails to act canonically or if the formal expression for the symplectic form diverges, i.e. the form does not exist. This seems to hint at a kind of colour-confinement built into the classical Hamiltonian formulation of non-abelian gauge theories.

AB - We investigate the asymptotic symmetry group of the free SU(N)-Yang-Mills theory using the Hamiltonian formalism. We closely follow the strategy of Henneaux and Troessaert who successfully applied the Hamiltonian formalism to the case of gravity and electrodynamics, thereby deriving the respective asymptotic symmetry groups of these theories from clear-cut first principles. These principles include the minimal assumptions that are necessary to ensure the existence of Hamiltonian structures (phase space, symplectic form, differentiable Hamiltonian) and, in case of Poincaré invariant theories, a canonical action of the Poincaré group. In the first part of the paper we show how these requirements can be met in the non-abelian SU(N)-Yang-Mills case by imposing suitable fall-off and parity conditions on the fields. We observe that these conditions admit neither non-trivial asymptotic symmetries nor non-zero global charges. In the second part of the paper we discuss possible gradual relaxations of these conditions by following the same strategy that Henneaux and Troessaert had employed to remedy a similar situation in the electromagnetic case. Contrary to our expectation and the findings of Henneaux and Troessaert for the abelian case, there seems to be no relaxation that meets the requirements of a Hamiltonian formalism and allows for non-trivial asymptotic symmetries and charges. Non-trivial asymptotic symmetries and charges are only possible if either the Poincaré group fails to act canonically or if the formal expression for the symplectic form diverges, i.e. the form does not exist. This seems to hint at a kind of colour-confinement built into the classical Hamiltonian formulation of non-abelian gauge theories.

KW - Gauge Symmetry

KW - Global Symmetries

KW - Space-Time Symmetries

UR - http://www.scopus.com/inward/record.url?scp=85092559541&partnerID=8YFLogxK

U2 - 10.48550/arXiv.2006.07268

DO - 10.48550/arXiv.2006.07268

M3 - Article

AN - SCOPUS:85092559541

VL - 2020

JO - Journal of high energy physics

JF - Journal of high energy physics

SN - 1029-8479

IS - 10

M1 - 94

ER -