Kondo resonance from vacancies in graphene

Abstract

Using the slave-rotor mean-field theory, we study the formation of Kondo resonance in graphene induced from vacancies. At the Dirac neutrality point, we find acritical hybridization strength beyond which the Kondo resonance takes place, despite vanishing density of states. We also find that the line-shapes of the Kondo peak are entirely different from Lorentzian shown in normal metallic hosts. The dependence of Kondo temperature on the effective hybridization parameter of the spinon field turns out to be linear in contrast to the quadratic dependence in normal metals. Upon doping we find strong electron-hole asymmetry for the dependence of Kondo temperature on the chemical potential.