Rapid Communications - We consider the classic Madelung problem of a lattice with N sites labeled i, each occupied by either an A or a B atom, and bearing a point charge Qi that depends on the environment of i. We find that, out of the 2N possible lattice configurations of this binary A1-xBx fcc alloy, the lowest-energy ``ground-state structures'' are the A3B-, A2B2- and AB3-ordered superlattices with ordering vector (1,0,1/2). On the other hand, for the pseudobinary A1-xBxC zinc-blende alloy, the ground state corresponds to phase separation into AC+BC. Contrary to the accepted view, the Madelung energy of the random binary alloy is found to be nonvanishing.
Ground state structures and the random state energy of the Madelung lattice / Magri, R., S. H., W., A., Z.. - In: PHYSICAL REVIEW. B, CONDENSED MATTER. - ISSN 0163-1829. - STAMPA. - 42:(1990), pp. 11388-11391. [10.1103/PhysRevB.42.11388]
Ground state structures and the random state energy of the Madelung lattice
MAGRI, Rita;
1990
Abstract
Rapid Communications - We consider the classic Madelung problem of a lattice with N sites labeled i, each occupied by either an A or a B atom, and bearing a point charge Qi that depends on the environment of i. We find that, out of the 2N possible lattice configurations of this binary A1-xBx fcc alloy, the lowest-energy ``ground-state structures'' are the A3B-, A2B2- and AB3-ordered superlattices with ordering vector (1,0,1/2). On the other hand, for the pseudobinary A1-xBxC zinc-blende alloy, the ground state corresponds to phase separation into AC+BC. Contrary to the accepted view, the Madelung energy of the random binary alloy is found to be nonvanishing.
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