Spin instabilities in semiconductor superlattices

The subband levels of quantum wells grown in a periodic array form miniband s whose bandwidth Delta depends on the probability of interlayer tunneling. In the presence of a strong magnetic field, this system of minibands can e xhibit various Coulomb-interaction-driven spin polarization instabilities a t an integral value of the filling factor v. We investigate in particular t he Hartree-Fock phase diagram in the case in which the n=0 spin-up and n=1 spin-down Landau levels are separated by an energy smaller than Delta. A sp in-density-wave ground state is shown to occur at filling factor v=2.