Electronic structure of superconducting MgB2 and related binary and ternary borides

Abstract

First principles FLMTO-GGA electronic structure calculations of the new medium-TC superconductor (MTSC) MgB2 and related diborides indicate that superconductivity in these compounds is related to the the existence of px,y-band holes at the point. Based on these calculations, we explain the absence of medium-TC superconductivity for BeB2, AlB2 ScB2 and YB2. The simulation of a number of MgB2-based ternary systems using a supercell approach demonstrates that (i) the electron doping of MgB2 (i.e., MgB2-yXy with X=Be, C, N, O) and the creation of isoelectronic defects in the boron sublattice (nonstoichiometric MgBy<2) are not favorable for superconductivity, and (ii) a possible way of searching for similar MTSC should be via hole doping of MgB2 (i.e., Mg1-xMxB2 with M=Be, Ca, Li, Na, Cu, Zn) or CaB2 or via creating layered superstructures of the MgB2/CaB2 type. A recent report of superconductivity in Cu doped MgB2 supports this view.

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