Stripes in heterovalent metal-doped cuprates

Abstract

Doping La2CuO4 with alkaline-earth, Ae= Sr,Ba generates holes in La2-y-xLnyAexCuO4 (Ln = Nd,Eu). A small fraction of the holes, p 0.02, suppresses 3D-AFM. The rest resides as double holes at O atoms in the CuO2 planes. The superlattice, formed by the O atoms, gives rise to both charge order stripes and magnetization stripes with incommensurability qc,m(x) x-p for Ae doping x < x, but constant qc beyond. Antiparallel orientation of magnetic moments m(O) yields a natural explanation for the coupling of qm(x) = 12 qc(x). Doping Nd2CuO4 with Ce generates electrons that reside pairwise in copper atoms. This accounts for the different properties of n-doped compounds. When n-doped, qc(x) x. Above a threshold temperature T', electron-hole pairs are thermally generated, but then separate to reside pairwise at Cu and O atoms. This breaks the locking of the incommensurability of charge order and magnetization stripes, qm(x) 12 qc(x).