Longitudinal spin-fluctuations and superconductivity in ferromagnetic ZrZn2 from ab initio calculations
Abstract
The recent discovery of superconductivity coexisting with weak itinerant ferromagnetism in the d-electron intermetallic compound ZrZn2 strongly suggests spin-fluctuation mediated superconductivity. Ab initio electronic structure calculations of the Fermi surface and generalized susceptibilities are performed to investigate the viability of longitudinal spin-fluctuation-induced spin-triplet superconductivity in the ferromagnetic state. The critical temperature is estimated to be of the order of 1 K. Additionally, it is shown that in spite of a strong electron-phonon coupling (λph=0.7), conventional s-wave superconductivity is inhibited by the presence of strong spin-fluctuations.
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