Two-dimensional superconductivity of the Ca-intercalated graphene on SiC: vital role of the interface between monolayer graphene and the substrate
Ca-intercalation has opened a way for superconductivity in graphene on SiC. However, the atomic and electronic structures being critical for superconductivity are still under discussion. We find the essential role of the interface between monolayer graphene and the SiC substrate for superconductivit...
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Zusammenfassung: | Ca-intercalation has opened a way for superconductivity in graphene on SiC.
However, the atomic and electronic structures being critical for
superconductivity are still under discussion. We find the essential role of the
interface between monolayer graphene and the SiC substrate for
superconductivity. In the Ca-intercalation process, at the interface a carbon
layer terminating SiC changes to graphene by Ca-termination of SiC (monolayer
graphene becomes bilayer) with inducing more carriers than a free-standing
model. Then, Ca is intercalated in-between graphene layers, which shows
superconductivity with the updated critical temperature ($T_{C}$) of up to 5.7
K. In addition, the relation between $T_{C}$ and the normal-state conductivity
is unusual, "dome-shape". These findings are beyond the simple C6CaC6 model in
which s-wave BCS superconductivity is theoretically predicted. This work
proposes a general picture of the intercalation-induced superconductivity in
graphene on SiC, and shed the light on the potential of superconductivity
induced by other intercalants. |
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DOI: | 10.48550/arxiv.2111.13012 |