Superconductivity and phonon self-energy effects in Fe1+yTe0.6Se0.4
Abstract
We study Fe1+yTe0.6Se0.4 multi-band superconductor with Tc=14K by polarization-resolved Raman spectroscopy. Deep in the superconducting state, we detect pair-breaking excitation at 45cm-1 (2=5.6meV) in the XY(B2g) scattering geometry, consistent with twice of the superconducting gap energy (3 meV) revealed by ARPES on the hole-like Fermi pocket with dxz/dyz character. We analyze the superconductivity induced phonon self-energy effects for the B1g(Fe) phonon and estimate the electron-phonon coupling constant λ ≈ 0.026, which is insufficient to explain superconductivity with Tc=14K.
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