Fermions on thick branes in the background of sine-Gordon kinks

A class of thick branes in the background of sine-Gordon kinks with a scalar potential V(phi) = p(1 + cos2 phi/q) was constructed by R. Koley and S. Kar [Classical Quantum Gravity 22, 753 (2005)]. In this paper, in the background of the warped geometry, we investigate the issue of localization of spin-1/2 fermions on these branes in the presence of two types of scalar- fermion couplings: eta(Psi) over bar phi Psi and eta(Psi) over bar sin phi Psi. By presenting the mass-independent potentials in the corresponding Schrodinger equations, we obtain the lowest Kaluza-Klein modes and a continuous gapless spectrum of Kaluza-Klein states with m(2) > 0 for both types of couplings. For the Yukawa coupling eta(Psi) over bar phi Psi, the effective potential of the right chiral fermions for positive q and eta is always positive; hence only the effective potential of the left chiral fermions could trap the corresponding zero mode. This is a well- known conclusion which is discussed extensively in the literature. However, for the coupling eta(Psi) over bar sin phi Psi, the effective potential of the right chiral fermions for positive q and eta is no longer always positive. Although the value of the potential at the location of the brane is still positive, it has a series of wells and barriers on each side, which ensures that the right chiral fermion zero mode could be trapped. Thus we may draw the following remarkable conclusion: for positive eta and q, the potentials of both the left and right chiral fermions could trap the corresponding zero modes under certain restrictions.