Spectrum Structure of Fermion on Bloch Branes with Two Scalar-fermion Couplings

Abstract

It is known that the Bloch brane is generated by an odd scalar field φ and an even one . In order to localize a bulk fermion on the Bloch brane, the coupling between the fermion and scalars should be introduced. There are two localization mechanisms in the literature, the Yukawa coupling -η F1(φ,) and non-Yukawa coupling λ M ∂M F2(φ,) γ5 . The Yukawa coupling has been considered. In this paper, we consider both couplings between the fermion and the scalars with F1=mφ2p+1 and F2=nφ2q, and investigate the localization and spectrum structure of the fermion on the Bloch brane. It is found that the left-handed fermion zero mode can be localized on the Bloch brane under some conditions, and the effective potentials have rich structure and may be volcano-like, finite square well-like, and infinite potentials. As a result, the spectrum consists of a series of resonant Kaluza-Klein fermions, finite or infinite numbers of bound Kaluza-Klein fermions. Especially, we find a new feature of the introduction of both couplings: the spectrum for the case of finite square well-like potentials contains discrete quasi-localized and localized massive KK modes simultaneously.