Substructures of the Weyl group and their physical applications

Martini, Riccardo; Paci, Gregorio; Sauro, Dario; Vacca, Gian Paolo; Zanusso, Omar

doi:10.1007/jhep07(2024)191

J. High Energ. Phys.

2024

DOI: 10.1007/jhep07(2024)191

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Substructures of the Weyl group and their physical applications

Riccardo Martini,

Gregorio Paci,

Dario Sauro

et al.

Abstract: We study substructures of the Weyl group of conformal transformations of the metric of (pseudo)Riemannian manifolds. These substructures are identified by differential constraints on the conformal factors of the transformations which are chosen such that their composition is associative. Mathematically, apart from rare exceptions, they are partial associative groupoids, not groups, so they do not have an algebra of infinitesimal transformations, but this limitation can be partially circumvented using some of t… Show more

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Critical reassessment of the restricted Weyl symmetry

Glavan,

Noris,

Zlosnik

2024

Phys. Rev. D

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A class of globally scale-invariant scalar-tensor theories have been proposed to be invariant under a larger class of transformations that take the form of local Weyl transformations supplemented by a restriction that the conformal factor satisfies a covariant Klein-Gordon equation. The action of these theories indeed seems to be invariant under such transformations up to boundary terms, this property being referred to as “restricted Weyl symmetry.” However, we find that corresponding equations of motion are not invariant under these transformations. This is a paradox, that is explained by realizing that the restriction condition on the conformal factor forces the restricted Weyl transformation to be a transformation. For nonlocal transformations would-be boundary terms cannot in general be discarded from the action. Moreover, variations of trajectories cannot be assumed to vanish at boundaries of the action when deriving equations of motion. We illustrate both of these less known properties by considering a series of simple examples. Finally, we apply these observations to the case of globally scale-invariant scalar-tensor theories to demonstrate that restricted Weyl transformations are, in fact, not symmetries of the full system. Published by the American Physical Society 2024

show abstract

Critical reassessment of the restricted Weyl symmetry

Glavan,

Noris,

Zlosnik

2024

Phys. Rev. D

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show abstract

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Substructures of the Weyl group and their physical applications

Cited by 1 publication

References 55 publications

Critical reassessment of the restricted Weyl symmetry

Critical reassessment of the restricted Weyl symmetry

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