Hole-doped, High-Temperature Superconductors Li_{x}BC, Na_{x}BC and
  C_{x} : A Coherent-Potential-Based Prediction

Allen; An; Belaschenko; Bohnen; Bud'ko; Faulkner; Gaspari; Hinks; Joseph; Kong; Kortus; Liu; Medvedeva; Nagamatsu; Perdew; Perdew; Prabhakar P Singh; Satta; Singh; Singh; Singh; Takahashi; Vitos; Yildirim

research

Hole-doped, High-Temperature Superconductors Li_{x}BC, Na_{x}BC and C_{x} : A Coherent-Potential-Based Prediction

Authors: Allen
An
Belaschenko
Bohnen
Bud'ko
Faulkner
Gaspari
Hinks
Joseph
Kong
Kortus
Liu
Medvedeva
Nagamatsu
Perdew
Perdew
Prabhakar P Singh
Satta
Singh
Singh
Singh
Takahashi
Vitos
Yildirim
Publication date: 1 January 2002
Publisher: 'Elsevier BV'
Doi

Abstract

Using density-functional-based methods, we show that the hole-doped Li_{x}BC and Na_{x}BC in P6_{3}/mmc crystal structure and C_{x} in graphite structure are capable of showing superconductivity, possibly with a T_{c} much higher than that of MgB_{2}. We use full-potential methods to obtain the optimized lattice constants a and c, coherent-potential approximation to describe the effects of disorder, Gaspari-Gyorffy formalism to obtain the electron-phonon coupling constant

\lambda

, and Allen-Dynes equation to calculate T_{c} as a function of hole concentration in these alloys.Comment: 4 pages, 5 figure

Similar works

Full text

Available Versions

Crossref

Last time updated on 05/06/2019