We investigate the relationship between a one-parameter family of (anti–)de Sitter Yang-Mills models and a model of Einstein-Palatini gravity with matter, realized through Inönü-Wigner contraction of the (A)dS algebra. By setting the group parameter α to zero, the gauge transformation of the potential becomes consistent with the transformation properties of the tetrad form and spin connection. We show that a sector of the Yang-Mills dynamics exists in which the equations decouple. Moreover, a subset of the gauge transformations can be related to diffeomorphisms, leading to the identification of the tetrad field. Finally, the resulting dynamics is consistent with a gravitational dynamics in the first-order formalism.
Gravity model from (A)dS Yang-Mills theory / Chirco, Goffredo; Lamberti, Alfonso; Vacchiano, Lucio; Vitale, Patrizia. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 112:6(2025), pp. 1-10. [10.1103/t9fw-cdzl]
Gravity model from (A)dS Yang-Mills theory
Chirco, Goffredo
;Lamberti, Alfonso;Vacchiano, Lucio;Vitale, Patrizia
2025
Abstract
We investigate the relationship between a one-parameter family of (anti–)de Sitter Yang-Mills models and a model of Einstein-Palatini gravity with matter, realized through Inönü-Wigner contraction of the (A)dS algebra. By setting the group parameter α to zero, the gauge transformation of the potential becomes consistent with the transformation properties of the tetrad form and spin connection. We show that a sector of the Yang-Mills dynamics exists in which the equations decouple. Moreover, a subset of the gauge transformations can be related to diffeomorphisms, leading to the identification of the tetrad field. Finally, the resulting dynamics is consistent with a gravitational dynamics in the first-order formalism.| File | Dimensione | Formato | |
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