Magnon energy gap in a periodic anisotropic magnetic superlattice

The magnon energy bands or spectra in a two-layer ferromagnetic superlattice are studied. It is found that a modulated energy gap exists in the magnon energy band along K x direction perpendicular to the superlattice plane, which is different from the optical magnon gap at K x ¼ 0. The anisotropy, t

Magneto-photoluminescence spectra of excitons in (GaP)n/(AIP)n short period superlattices (n = 3-9 is the number of monolayers) in high magnetic fields up to 40 T are studied. It was found that the luminescence intensity of the excitons showed a remarkable decrease when a field was applied perpendic

In GaP/AlP superlattices the observed photoluminescence (PL) intensity decreases with increasing a magnetic field applied along the superlattice direction in the strong field regime. The origin of this unusual behavior is discussed. We show that a bound exciton localized around a defect at the inte