Singularity in self-energy and composite fermion excitations of interacting electrons

Abstract

We propose that a composite fermion operator fiσ(2ni σ-1) could have coherent excitations, where fiσ is the fermion operator for interacting electrons and ni σ is the number operator of the opposite spin. In the two-impurity Anderson model, it is found that the excitation of this composite fermion has a pseudogap in the Kondo regime, and has a finite spectral weight in the regime where the excitation of the regular fermion fiσ has a pseudogap. In the latter regime, the self-energy of fiσ is found to be singular near Fermi energy. We argue that this composite fermion could develop a Fermi surface with Fermi liquid behaviors but "hidden" from charge excitations in lattice generalizations. We further illustrate that this type of excitations is essential in addressing the pseudogap state and unconventional superconductivity.