Ekimov Evgeny A, Sidorov Vladimir A, Zoteev Andrey V, Lebed Julia B, Thompson Joe D, Stishov Sergey M
Institute for High Pressure Physics, Russian Academy of Sciences, 142190 Troitsk, Russia.
Physics Department, Moscow State University, 119992 Moscow, Russia.
Sci Technol Adv Mater. 2009 Jan 28;9(4):044210. doi: 10.1088/1468-6996/9/4/044210. eCollection 2008 Dec.
Superconducting boron-doped diamond samples were synthesized with isotopes of B, B, C and C. We claim the presence of a carbon isotope effect on the superconducting transition temperature, which supports the 'diamond-carbon'-related nature of superconductivity and the importance of the electron-phonon interaction as the mechanism of superconductivity in diamond. Isotope substitution permits us to relate almost all bands in the Raman spectra of heavily boron-doped diamond to the vibrations of carbon atoms. The 500 cm Raman band shifts with either carbon or boron isotope substitution and may be associated with vibrations of paired or clustered boron. The absence of a superconducting transition (down to 1.6 K) in diamonds synthesized in the Co-C-B system at 1900 K correlates with the small boron concentration deduced from lattice parameters.
用硼、硼、碳和碳的同位素合成了超导硼掺杂金刚石样品。我们声称存在碳同位素效应影响超导转变温度,这支持了超导性与“金刚石 - 碳”相关的性质以及电子 - 声子相互作用作为金刚石中超导机制的重要性。同位素取代使我们能够将重硼掺杂金刚石拉曼光谱中的几乎所有谱带与碳原子的振动联系起来。500厘米拉曼谱带会随着碳或硼同位素取代而发生位移,并且可能与成对或成簇硼的振动有关。在1900K下于钴 - 碳 - 硼体系中合成的金刚石中不存在超导转变(低至1.6K),这与从晶格参数推断出的低硼浓度相关。