Effect of Pressure on Superconducting Ca-intercalated Graphite CaC6
Abstract
The pressure effect on the superconducting transition temperature (Tc) of the newly-discovered Ca-intercalated graphite compound CaC6 has been investigated up to 16 kbar. Tc is found to increase under pressure with a large relative ratio c/Tc of ≈ +0.4 %/kbar. Using first-principles calculations, we show that the large and positive effect of pressure on Tc can be explained in the scope of electron-phonon theory due to the presence of a soft phonon branch associated to in-plane vibrations of Ca atoms. Implications of the present findings on the current debate about the superconducting mechanism in graphite intercalation compounds are discussed.
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