On the contrasting spin dynamics of La2-xSrxCuO4, Nd2-xCexCuO4 and YBa2Cu3O6+x near half filling

Abstract

We present simple calculations which show that incommensurability upon doping and the width of the magnetically ordered phase in Mott-Hubbard insulators depend strongly on the location of the hole/electron pockets in the Brillouin zone. For LaSrCuO systems, we found the pockets at ( π/2, π/2), in which case the corrections to the antiferromagnetic spin stiffness grow with doping and destroy the commensurate antiferromagnetic ordering already at a very small doping. On the other hand, in NdCeCuO, the hole pockets are located at (π,0) and the symmetry related points, in which case the corrections to the stiffness scale linearly with the density of carriers and do not destroy commensurate spin ordering. For YBCuO, systems the situation is less certain, but our results favor hole pockets at (π/2,π/2). We also discuss briefly the tendency towards phase separation.

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