Theory for phonon-induced superconductivity in MgB2
Abstract
We analyze superonductivity in MgB2 observed below Tc=39 K resulting from electron-phonon coupling involving a mode at ω1 = 24 meV and most importantly the in-plane B-B E2g vibration at ω2=67 meV. The quasiparticles originating from π- and σ-states couple strongly to the low-frequency mode and the E2g-vibrations respectively. Using two-band Eliashberg theory, λπ = 1.4 and λσ = 0.7, we calculate the gap functions i(ω,0) (i=π, σ). Our results provide an explanation of recent tunneling experiments. We get Habc2/Hcc2 ≈ 3.9.
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