Signature of high Tc above 25 K in high quality superconducting diamond.

Authors :: Hiroyuki Okazaki
Takanori Wakita
Takayuki Muro
Tetsuya Nakamura
Yuji Muraoka
Takayoshi Yokoya
Shin-ichiro Kurihara
Hiroshi Kawarada
Tamio Oguchi
Yoshihiko Takano
Source :: Applied Physics Letters; 2/2/2015, Vol. 106 Issue 5, p1-4, 4p, 1 Chart, 4 Graphs
Publication Year :: 2015
Abstract: We have observed zero resistivity above 10 K and an onset of resistivity reduction at 25.2 K in a heavily B-doped diamond film. However, the effective carrier concentration is similar to that of superconducting diamond with a lower T<subscript>c</subscript>. We found that the carrier has a longer mean free path and lifetime than in the previous report, indicating that this highest T<subscript>c</subscript> diamond has better crystallinity compared to that of other superconducting diamond films. In addition, the susceptibility shows a small transition above 20 K in the high quality diamond, suggesting a signature of superconductivity above 20 K. These results strongly suggest that heavier carrier doped defect-free crystalline diamond could give rise to high T<subscript>c</subscript> diamond. [ABSTRACT FROM AUTHOR]