Power Law Like Correlation between Condensation Energy and Superconducting Transition Temperatures in Iron Pnictide/Chalcogenide Superconductors: Beyond the BCS Understanding
arXiv:1402.6762 · doi:10.1103/PhysRevB.89.140503
Abstract
Superconducting condensation energy $U_0^{int}$ has been determined by integrating the electronic entropy in various iron pnictide/chalcogenide superconducting systems. It is found that $U_0^{int}\propto T_c^n$ with $n$ = 3 to 4, which is in sharp contrast to the simple BCS prediction $U_0^{BCS}=1/2N_FÎ_s^2$ with $N_F$ the quasiparticle density of states at the Fermi energy, $Î_s$ the superconducting gap. A similar correlation holds if we compute the condensation energy through $U_0^{cal}=3γ_n^{eff}Î_s^2/4Ï^2k_B^2$ with $γ_n^{eff}$ the effective normal state electronic specific heat coefficient. This indicates a general relationship $γ_n^{eff} \propto T_c^m$ with $m$ = 1 to 2, which is not predicted by the BCS scheme. A picture based on quantum criticality is proposed to explain this phenomenon.
5 pages, 5 figures