Journal of High Energy Physics (Dec 2023)
Localization of spinor fields in higher-dimensional braneworlds
Abstract
Abstract In this paper we investigate the localization of spinor fields in braneworld models by reducing a Dirac spinor in 2n + 2-dimensional spacetime to spinors in 2n dimensions. The high-dimensional Dirac can be reduced to low-dimensional spinors including Weyl or Dirac. In conformally flat extra-dimensional spacetime, fermions cannot be localized through minimal coupling with gravity. To achieve the localization of spinor fields, we introduce a tensor coupling term given by Ψ ¯ Γ M Γ N Γ P ⋯ T MNP ⋯ Ψ $$ \overline{\Psi}{\Gamma}^M{\Gamma}^N{\Gamma}^P\cdots {T}_{MNP\cdots}\Psi $$ , which ensures SO(n, 1) symmetry. For a tensor T MNP⋯ of odd order, the left and right chiralities of high-dimensional spinors are decoupled. We find that a special form of tensor coupling Ψ ¯ Γ M ∂ M F ϕ R R μν R μν ⋯ Ψ $$ \overline{\Psi}{\Gamma}^M{\partial}_MF\left(\phi, R,{R}^{\mu \nu}{R}_{\mu \nu},\cdots \right)\Psi $$ may facilitate the localization of the spinor field when F(ϕ) = ϕ n .
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