Specific heat of MgB$_2$ in a one- and a two-band model from first-principles calculations

A. A. Golubov; B. J. Gibson; J. Kortus; K. Ahn; O. Jepsen; O. K. Andersen; O. V. Dolgov; R. K. Kremer; Y. Kong

arxiv: cond-mat/0111262 · v2 · submitted 2001-11-14 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci

Specific heat of MgB₂ in a one- and a two-band model from first-principles calculations

A. A. Golubov , J. Kortus , O. V. Dolgov , O. Jepsen , Y. Kong , O. K. Andersen , B. J. Gibson , K. Ahn

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R. K. Kremer

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classification ❄️ cond-mat.supr-con cond-mat.mtrl-sci

keywords modeltwo-bandcalculationsfirst-principlesheatone-bandagreementanomaly

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The heat capacity anomaly at the transition to superconductivity of the layered superconductor MgB$_2$ is compared to first-principles calculations with the Coulomb repulsion, $\mu^\ast$, as the only parameter which is fixed to give the measured $T_c$. We solve the Eliashberg equations for both an isotropic one-band and a two-band model with different superconducting gaps on the $\pi$ and $\sigma$ Fermi surfaces. The agreement with experiments is considerably better for the two-band model than for the one-band model.

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Specific heat of MgB₂ in a one- and a two-band model from first-principles calculations

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