N = 2 extended MacDowell-Mansouri supergravity

Pedro D. Alvarez; Lucas Delage; Mauricio Valenzuela; Jorge Zanelli

doi:10.1007/JHEP07(2021)176

N = 2 extended MacDowell-Mansouri supergravity

Pedro D. Alvarez, Lucas Delage, Mauricio Valenzuela^*, Jorge Zanelli

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

We construct a gauge theory based in the supergroup G = SU(2, 2|2) that generalizes MacDowell-Mansouri supergravity. This is done introducing an extended notion of Hodge operator in the form of an outer automorphism of su(2, 2|2)-valued 2-form tensors. The model closely resembles a Yang-Mills theory — including the action principle, equations of motion and gauge transformations — which avoids the use of the otherwise complicated component formalism. The theory enjoys H = SO(3, 1) × ℝ × U(1) × SU(2) off-shell symmetry whilst the broken symmetries G/H, translation-type symmetries and supersymmetry, can be recovered on surface of integrability conditions of the equations of motion, for which it suffices the Rarita-Schwinger equation and torsion-like constraints to hold. Using the matter ansatz —projecting the 1 ⊗ 1/2 reducible representation into the spin-1/2 irreducible sector — we obtain (chiral) fermion models with gauge and gravity interactions.

Original language	English
Article number	176
Journal	Journal of High Energy Physics
Volume	2021
Issue number	7
DOIs	https://doi.org/10.1007/JHEP07(2021)176
State	Published - 2021
Externally published	Yes

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Publisher Copyright:
© 2021, The Author(s).

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1007/JHEP07(2021)176

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title = "N = 2 extended MacDowell-Mansouri supergravity",

abstract = "We construct a gauge theory based in the supergroup G = SU(2, 2|2) that generalizes MacDowell-Mansouri supergravity. This is done introducing an extended notion of Hodge operator in the form of an outer automorphism of su(2, 2|2)-valued 2-form tensors. The model closely resembles a Yang-Mills theory — including the action principle, equations of motion and gauge transformations — which avoids the use of the otherwise complicated component formalism. The theory enjoys H = SO(3, 1) × ℝ × U(1) × SU(2) off-shell symmetry whilst the broken symmetries G/H, translation-type symmetries and supersymmetry, can be recovered on surface of integrability conditions of the equations of motion, for which it suffices the Rarita-Schwinger equation and torsion-like constraints to hold. Using the matter ansatz —projecting the 1 ⊗ 1/2 reducible representation into the spin-1/2 irreducible sector — we obtain (chiral) fermion models with gauge and gravity interactions.",

keywords = "Classical Theories of Gravity, Gauge Symmetry, Supergravity Models, Supersymmetry Breaking",

author = "Alvarez, {Pedro D.} and Lucas Delage and Mauricio Valenzuela and Jorge Zanelli",

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doi = "10.1007/JHEP07(2021)176",

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T1 - N = 2 extended MacDowell-Mansouri supergravity

AU - Alvarez, Pedro D.

AU - Delage, Lucas

AU - Valenzuela, Mauricio

AU - Zanelli, Jorge

PY - 2021/7

Y1 - 2021/7

N2 - We construct a gauge theory based in the supergroup G = SU(2, 2|2) that generalizes MacDowell-Mansouri supergravity. This is done introducing an extended notion of Hodge operator in the form of an outer automorphism of su(2, 2|2)-valued 2-form tensors. The model closely resembles a Yang-Mills theory — including the action principle, equations of motion and gauge transformations — which avoids the use of the otherwise complicated component formalism. The theory enjoys H = SO(3, 1) × ℝ × U(1) × SU(2) off-shell symmetry whilst the broken symmetries G/H, translation-type symmetries and supersymmetry, can be recovered on surface of integrability conditions of the equations of motion, for which it suffices the Rarita-Schwinger equation and torsion-like constraints to hold. Using the matter ansatz —projecting the 1 ⊗ 1/2 reducible representation into the spin-1/2 irreducible sector — we obtain (chiral) fermion models with gauge and gravity interactions.

AB - We construct a gauge theory based in the supergroup G = SU(2, 2|2) that generalizes MacDowell-Mansouri supergravity. This is done introducing an extended notion of Hodge operator in the form of an outer automorphism of su(2, 2|2)-valued 2-form tensors. The model closely resembles a Yang-Mills theory — including the action principle, equations of motion and gauge transformations — which avoids the use of the otherwise complicated component formalism. The theory enjoys H = SO(3, 1) × ℝ × U(1) × SU(2) off-shell symmetry whilst the broken symmetries G/H, translation-type symmetries and supersymmetry, can be recovered on surface of integrability conditions of the equations of motion, for which it suffices the Rarita-Schwinger equation and torsion-like constraints to hold. Using the matter ansatz —projecting the 1 ⊗ 1/2 reducible representation into the spin-1/2 irreducible sector — we obtain (chiral) fermion models with gauge and gravity interactions.

KW - Classical Theories of Gravity

KW - Gauge Symmetry

KW - Supergravity Models

KW - Supersymmetry Breaking

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DO - 10.1007/JHEP07(2021)176

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JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 7

M1 - 176

ER -

N = 2 extended MacDowell-Mansouri supergravity

Abstract

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