Prediction of High T(c) Superconductivity in Hole-doped LiBC

Overview

Journal Phys Rev Lett

Publisher American Physical Society

Specialty Biophysics

Date 2002 Mar 23

PMID 11909493

Citations 3

Authors

H Rosner

A Kitaigorodsky

W E Pickett

Affiliations

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Abstract

The layered lithium borocarbide LiBC, isovalent with and structurally similar to the superconductor MgB2, is an insulator due to the modulation within the hexagonal layers (BC vs B2). We show that hole doping of LiBC results in Fermi surfaces of B-C p sigma character that couple very strongly to B-C bond stretching modes, precisely the features that lead to superconductivity at T(c) approximately equal to 40 K in MgB2. Comparison of Li(0.5)BC with MgB2 indicates the former to be a prime candidate for electron-phonon coupled superconductivity at substantially higher temperature than in MgB2.

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