QUANTUM OSCILLATIONS OF PROPERTIES IN MAGNETIC MULTILAYERS

An oscillatory interlayer exchange coupling observed in many sandwich and multilayer films can be understood as an interference effect of el ectron waves partially reflected at each interface with spin dependent reflection coefficients. Consequently, we might expect all magnetic p roperties in-some way related to the density of states to oscillate as a function of the magnetic and nonmagnetic layer thickness. In order to experimentally test this concept we have measured different magneti c properties of Ni/Au multilayer films prepared by magnetron sputterin g on glass substrates. The Ni thickness was kept constant at t(Ni)=(7. 3+/-0.5) Angstrom while the Au layer thickness was varied between 4 An gstrom and 80 Angstrom. The films had a coherent fee structure with (1 11) texture. The saturation held and the remanence oscillate as a func tion of t(Au) with a period which agrees well with a theoretical value calculated from the bulk Fermi surface of Au and proves that indeed a n oscillatory exchange coupling is present. The Curie temperature show s oscillations with t(Au) clearly correlated with the exchange couplin g constant, J: T-C oscillates like the absolute value of J. This behav ior is indeed expected from mean field theory. Similar oscillations ar e found for the spin wave parameter and the ground state magnetic mome nts. The variation of the exchange coupling with temperature and the r ole of inhomogeneities for the interpretation of the experimental data are discussed. (C) 1996 American Institute of Physics.