The de Sitter group and its representations: a window on the notion of de Sitterian elementary systems

Enayati, Mohammad; Gazeau, Jean-Pierre; Pejhan, Hamed; Wang, Anzhong

doi:10.48550/arxiv.2201.11457

Cited by 3 publications

(5 citation statements)

References 114 publications

(426 reference statements)

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“…Then, for N = 4, we will identify the UIR's of spin(4, 1) that correspond to the unitary strictly massless spin-3/2 field and to the unitary strictly and partially massless spin-5/2 fields on dS 4 (these UIR's have been also identified in Ref. [37]). For the sake of completeness, we also identify the UIR's of spin(N, 1) (N ≥ 3) that correspond to spin-3/2 and spin-5/2 fields with real mass parameter M on dS N .…”

Section: A Interpretation Of the Main Results In Terms Of The Classif...mentioning

confidence: 99%

The (partially) massless spin-3/2 and spin-5/2 fields in de Sitter spacetime as unitary and non-unitary representations of the de Sitter algebra

Letsios¹

2022

Preprint

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The divergence-free and gamma-traceless vector-spinor eigenfunctions, as well as the divergence-free and gamma-traceless rank-2 symmetric tensor-spinor eigenfunctions, of the Dirac operator on the N -sphere (S N ) are written down explicitly for N ≥ 3. The spin-3/2 and spin-5/2 eigenmodes of the Dirac operator with arbitrary imaginary mass parameter on N -dimensional (N ≥ 3) de Sitter spacetime (dS N ) are obtained by analytic continuation. Their transformation properties under the de Sitter algebra spin(N, 1) are studied. For N odd, we show that there is no de Sitter (dS) invariant scalar product for these eigenmodes. For N even, although dS invariant scalar products exist, positive-definiteness of the norm occurs only for the strictly and partially massless theories in N = 4 dimensions. For N = 4, the way in which the eigenmodes form unitary strictly and partially massless representations of spin(4, 1) is emphasised. The analysis presented in this paper reveals previously unknown features of the gauge-invariant theories with spin 3/2 and 5/2 on dS N (N ≥ 3): the strictly massless spin-3/2 field theory, as well as the strictly and partially massless spin-5/2 field theories, are unitary only for N = 4. In particular, a unitary theory for the gravitino field on dS N does not exist unless N = 4.

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Section: A Interpretation Of the Main Results In Terms Of The Classif...mentioning

confidence: 99%

The (partially) massless spin-3/2 and spin-5/2 fields in de Sitter spacetime as unitary and non-unitary representations of the de Sitter algebra

Letsios¹

2022

Preprint

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“…Causal structure of de Sitter space is induced by that in 'host' Minkowski spacetime of five dimensions [23,§ II.7]. The interval between two points, x and x ′ , in dS 4 is nothing but the projection of interval in five-dimensional flat spacetime on the hyperboloid (2.1):…”

Section: Free Particle In De Sitter Spacementioning

confidence: 99%

“…Topologically, de Sitter space is the direct product R × S 3 where R is time axis and S 3 is three-dimensional sphere [23]. The non-trivial topology makes electrodynamics very specific.…”

Section: Introductionmentioning

confidence: 99%

Regularization of electromagnetic field for self-force problem in de Sitter spacetime

Yaremko,

Duviryak

2023

Class. Quantum Grav.

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The paper is concerned with the motion of a point electric charge inde Sitter spacetime. A point particle of mass $m$ and charge $q$moving on a geodesic curve produces electromagnetic field that diverges ata particle's position. The field is determined by the electromagnetic Green'sfunction by Higuchi and Lee \cite{Hig2008}. The self-force contains bothdivergent and finite terms, and the latter are responsible for the radiation reaction.Our derivation of an effective equations of motion is based on conservation lawscorresponding to the group of isometry of de Sitter space. The N"{o}ther quantitiesconsist of particle's individual characteristics and energy, momentum, and angularmomentum carried by particle's electromagnetic field. Following the Detweiler–-Whitingconcept that a charge's motion should only be enforced by the regular componentof its own field, we ignore the divergent terms in conservation laws. We assumethat the divergencies are absorbed by particle's individual characteristicswithin the renormalization procedure. Finite radiative terms together withkinematic particle's characteristics constitute ten conserved quantitiesof closed particle plus field system. Their differential consequences yieldthe effective equations of motion of radiating charge in an external electromagneticfield and gravitation. Contributions to already renormalized particle's four-momentum and its inertial mass originatedfrom electromagnetic field and background gravity are also derived from ten balanceequations.

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“…Both of these later references compute characters of the representations and compare the separate cases of unitary irreducible representations in the presence of negative and positive cosmological constants. Another recent review which compares quantum field theory in the cases of zero and positive cosmological constants is that of [14] where group contractions and concepts of being massive and massless are also considered along other points. Our goal in this review is to draw attention to some recent directions in the discussion of de Sitter representations and their recognition in physical setups in a focused manner.…”

Section: Introductionmentioning

confidence: 99%

“…We refer to this field as the massless field; however, the concept of masslessness on de Sitter is far more involved beyond the case of zero mass scalar. The review [14] involves a better summary on the concept of masslessness.…”

Section: Introductionmentioning

confidence: 99%

Particles of a de Sitter Universe

Şengör

2023

Universe

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The de Sitter spacetime is a maximally symmetric spacetime. It is one of the vacuum solutions to Einstein equations with a cosmological constant. It is the solution with a positive cosmological constant and describes a universe undergoing accelerated expansion. Among the possible signs for a cosmological constant, this solution is relevant for primordial and late-time cosmology. In the case of a zero cosmological constant, studies on the representations of its isometry group have led to a broader understanding of particle physics. The isometry group of d+1-dimensional de Sitter is the group SO(d+1,1), whose representations are well known. Given this insight, what can we learn about the elementary degrees of freedom in a four dimensional de Sitter universe by exploring how the unitary irreducible representations of SO(4,1) present themselves in cosmological setups? This article aims to summarize recent advances along this line that benefit towards a broader understanding of quantum field theory and holography at different signs of the cosmological constant. Particular focus is given to the manifestation of SO(4,1) representations at the late-time boundary of de Sitter. The discussion is concluded by pointing towards future questions at the late-time boundary and the static patch with a focus on the representations.

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The de Sitter group and its representations: a window on the notion of de Sitterian elementary systems

Cited by 3 publications

References 114 publications

The (partially) massless spin-3/2 and spin-5/2 fields in de Sitter spacetime as unitary and non-unitary representations of the de Sitter algebra

The (partially) massless spin-3/2 and spin-5/2 fields in de Sitter spacetime as unitary and non-unitary representations of the de Sitter algebra

Regularization of electromagnetic field for self-force problem in de Sitter spacetime

Particles of a de Sitter Universe

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