TY - JOUR
T1 - The role of interface anisotropy in spin wave resonance spectra of magnetic multilayers exchange coupled through nonmagnetic f.c.c. spacer
AU - Castillo Alvarado, F. L.
AU - Rutkowski, J. H.
AU - Urbaniak-Kucharczyk, A.
AU - Wojtczak, L.
PY - 1998/7/1
Y1 - 1998/7/1
N2 - In the paper, the influence of interface anisotropy on the spin wave resonance (SWR) characteristics has been investigated and the accuracy of sample preparation necessary to compare the experimentally obtained SWR spectra of magnetic multilayers with theoretical predictions has been estimated. The transfer matrix approach has been applied to the calculation of the energy and relative intensities of SWR spectra as a function of the spacer thickness. The oscillatory exchange coupling between two ferromagnetic layers through nonmagnetic f.c.c. spacer has been employed to investigate spin wave profiles. Various pinning conditions at the external surfaces have been considered and the role of interface anisotropy have been discussed in detail. The results obtained show that for very thin spacers, the difference of one monoatomic layer of the spacer thickness can significantly influence the character of the spectra obtained. It has been also found, for the wide range of interface anisotropy parameters, that for thicker spacers (d ≥ 10 monoatomic layers), where the interlayer exchange coupling is rather weak, the interface anisotropy is the main factor determining the parameters of SWR spectra.
AB - In the paper, the influence of interface anisotropy on the spin wave resonance (SWR) characteristics has been investigated and the accuracy of sample preparation necessary to compare the experimentally obtained SWR spectra of magnetic multilayers with theoretical predictions has been estimated. The transfer matrix approach has been applied to the calculation of the energy and relative intensities of SWR spectra as a function of the spacer thickness. The oscillatory exchange coupling between two ferromagnetic layers through nonmagnetic f.c.c. spacer has been employed to investigate spin wave profiles. Various pinning conditions at the external surfaces have been considered and the role of interface anisotropy have been discussed in detail. The results obtained show that for very thin spacers, the difference of one monoatomic layer of the spacer thickness can significantly influence the character of the spectra obtained. It has been also found, for the wide range of interface anisotropy parameters, that for thicker spacers (d ≥ 10 monoatomic layers), where the interlayer exchange coupling is rather weak, the interface anisotropy is the main factor determining the parameters of SWR spectra.
KW - Ferromagnetic multilayers
KW - Interface anisotropy
KW - Oscillatory exchange coupling
KW - Spacer thickness
KW - Spin wave resonance (SWR)
KW - Transfer matrix approach
UR - http://www.scopus.com/inward/record.url?scp=0001625653&partnerID=8YFLogxK
U2 - 10.1016/S0040-6090(97)01213-3
DO - 10.1016/S0040-6090(97)01213-3
M3 - Artículo
SN - 0040-6090
VL - 324
SP - 225
EP - 229
JO - Thin Solid Films
JF - Thin Solid Films
IS - 1-2
ER -