From Diophantus to supergravity and massless higher spin multiplets

From Diophantus to supergravity and massless higher spin multiplets

A bstract We present a new method of deriving the off-shell spectrum of supergravity and massless 4 D , N = 1 higher spin multiplets without the need of an action and based on a set of natural requirements: (a.) existence of an underlying superspace description, (b.) an economical description of fre...

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Bibliographic Details
Published in:The journal of high energy physics Vol. 2017; no. 11; pp. 1 - 36
Main Authors: Gates, S. James, Koutrolikos, Konstantinos
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-11-2017
Springer Nature B.V
SpringerOpen
Subjects:
Classical and Quantum Gravitation
Elementary Particles
Formulations
High energy physics
Invariants
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
String Theory
Supergravity
Supergravity Models
Superspaces
Supersymmetric Effective Theories
Supersymmetry
Supergravity Models
Superspaces
Supersymmetric Effective Theories
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Summary:A bstract We present a new method of deriving the off-shell spectrum of supergravity and massless 4 D , N = 1 higher spin multiplets without the need of an action and based on a set of natural requirements: (a.) existence of an underlying superspace description, (b.) an economical description of free, massless, higher spins and (c.) equal numbers of bosonic and fermionic degrees of freedom. We prove that for any theory that respects the above, the fermionic auxiliary components come in pairs and are gauge invariant and there are two types of bosonic auxiliary components. Type (1) are pairs of a (2, 0)-tensor with real or imaginary (1, 1)-tensor with non-trivial gauge transformations. Type (2) are singlets and gauge invariant. The outcome is a set of Diophantine equations, the solutions of which determine the off-shell spectrum of supergravity and massless higher spin multiplets. This approach provides ( i ) a classification of the irreducible, supersymmetric, representations of arbitrary spin and ( ii ) a very clean and intuitive explanation to why some of these theories have more than one formulations (e.g. the supergravity multiplet) and others do not.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP11(2017)063