Ambient-space variational calculus for gauge fields on constant-curvature spacetimes

Bekaert, Xavier; Boulanger, Nicolas; Goncharov, Yegor; Grigoriev, Maxim

doi:10.1063/5.0159769

Journal of Mathematical Physics

2024

DOI: 10.1063/5.0159769

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Ambient-space variational calculus for gauge fields on constant-curvature spacetimes

Xavier Bekaert,

Nicolas Boulanger,

Yegor Goncharov

et al.

Abstract: We propose a systematic generating procedure to construct free Lagrangians for massive, massless and partially massless, totally-symmetric tensor fields on AdSd+1 starting from the Becchi–Rouet–Stora–Tyutin (BRST) Lagrangian description of massless fields in the flat ambient space Rd,2. A novelty is that the Lagrangian is described by a d + 1 form on Rd,2 whose pullback to AdSd+1 gives the genuine Lagrangian defined on anti de Sitter spacetime. Our derivation uses the triplet formulation originating from the f… Show more

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2024

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Cited by 3 publications

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Spin-(s, j) projectors and gauge-invariant spin-s actions in maximally symmetric backgrounds

Hutchings,

Ponds

2024

J. High Energ. Phys.

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Given a maximally symmetric d-dimensional background with isometry algebra $$ \mathfrak{g} $$ g , a symmetric and traceless rank-s field ϕa(s) satisfying the massive Klein-Gordon equation furnishes a collection of massive $$ \mathfrak{g} $$ g -representations with spins j ∈ {0, 1, · · · , s}. In this paper we construct the spin-(s, j) projectors, which are operators that isolate the part of ϕa(s) that furnishes the representation from this collection carrying spin j. In the case of an (anti-)de Sitter ((A)dSd) background, we find that the poles of the projectors encode information about (partially-)massless representations, in agreement with observations made earlier in d = 3, 4. We then use these projectors to facilitate a systematic derivation of two-derivative actions with a propagating massless spin-s mode. In addition to reproducing the massless spin-s Fronsdal action, this analysis generates new actions possessing higher-depth gauge symmetry. In (A)dSd we also derive the action for a partially-massless spin-s depth-t field with 1 ≤ t ≤ s. The latter utilises the minimum number of auxiliary fields, and corresponds to the action originally proposed by Zinoviev after gauging away all Stückelberg fields. Some higher-derivative actions are also presented, and in d = 3 are used to construct (i) generalised higher-spin Cotton tensors in (A)dS3; and (ii) topologically-massive actions with higher-depth gauge symmetry. Finally, in four-dimensional $$ \mathcal{N} $$ N = 1 Minkowski superspace, we provide closed-form expressions for the analogous superprojectors.

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Spin-(s, j) projectors and gauge-invariant spin-s actions in maximally symmetric backgrounds

Hutchings,

Ponds

2024

J. High Energ. Phys.

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Conformal Yang-Mills field in (A)dS space

Metsaev

2024

J. High Energ. Phys.

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Ordinary-derivative (second-derivative) Lagrangian formulation of classical conformal Yang-Mills field in the (A)dS space of six, eight, and ten dimensions is developed. For such conformal field, we develop two gauge invariant Lagrangian formulations which we refer to as generic formulation and decoupled formulation. In both formulations, the usual Yang-Mills field is accompanied by additional vector and scalar fields where the scalar fields are realized as Stueckelberg fields. In the generic formulation, the usual Yang-Mills field is realized as a primary field, while the additional vector fields are realized as auxiliary fields. In the decoupled formulation, the usual Yang-Mills field is realized as massless field, while the additional vector fields together with the Stueckelberg are realized as massive fields. Some massless/massive fields appear with the wrong sign of kinetic terms, hence demonstrating explicitly that the considered models are not unitary. The use of embedding space method allows us to treat the isometry symmetries of (A)dS space manifestly and obtain conformal transformations of fields in a relatively straightforward way. By accompanying each vector field by the respective gauge parameter, we introduce an extended gauge algebra. Levy-Maltsev decomposition of such algebra is noted. Use of the extended gauge algebra setup allows us to present concise form for the Lagrangian and gauge transformations of the conformal Yang-Mills field. Higher-derivative representation of the Lagrangian is also obtained.

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On the Particle Content of Moyal-Higher-Spin Theory

Cvitan,

Dominis Prester,

Giaccari

et al. 2024

Symmetry

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The Moyal-Higher-Spin (MHS) formalism, involving fields dependent on spacetime and auxiliary coordinates, is an approach to studying higher-spin (HS)-like models. To determine the particle content of the MHS model of the Yang–Mills type, we calculate the quartic Casimir operator for on-shell MHS fields, finding it to be generally non-vanishing, indicative of infinite/continuous spin degrees of freedom. We propose an on-shell basis for these infinite/continuous spin states. Additionally, we analyse the content of a massive MHS model.

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Ambient-space variational calculus for gauge fields on constant-curvature spacetimes

Cited by 3 publications

References 64 publications

Spin-(s, j) projectors and gauge-invariant spin-s actions in maximally symmetric backgrounds

Spin-(s, j) projectors and gauge-invariant spin-s actions in maximally symmetric backgrounds

Conformal Yang-Mills field in (A)dS space

On the Particle Content of Moyal-Higher-Spin Theory

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