Common behavior of the scaled condensation energy for both high-Tc and conventional superconductors

Abstract

We analyze the scaling of the condensation energy E divided by γ, E/γ N(0)12/γ, of both conventional superconductors and unconventional high-Tc one, where N(0) is the density of states, 1 is the maximum value of the superconducting gap and γ is the Sommerfeld coefficient. For the first time, we show that the universal scaling of E/γ Tc2 applies equally to conventional superconductors and unconventional high-Tc ones. Our consideration is based on both facts: Bogoliubov quasiparticles act in conventional and unconventional superconductors, and the corresponding flat band is deformed by the unconventional superconducting state. As a result, our theoretical observations based on the fermion condensation theory are in good agreement with experimental facts.