Spin superlattice behavior in ZnSe/Zn0.99Fe0.01Se quantum wells.

Spin superlattices with alternating nonmagnetic and magnetic layers, in which a tunable spin-dependent potential exists, have been fabricated. We show that the ZnSe/Zn 0.99 Fe 0.01 Se system, in which field-induced spin splitting in both valence and conduction bands can become much larger than the residual zero-field potentials, exhibits spin superlattice behavior. Low-temperature magnetoreflectance experiments have been used to investigate the nature of these structures, verifying through field-dependent spin splittings and transition strengths that they are in fact true spin superlattices