Co-Ni base thin films were deposited by reactive radio frequency magnetron sputtering in N2+Ar atmosphere at different PN2/PAr partial pressure ratios. Only the nitrogen content in the films changes when changing PN2/PAr . Amorphous magnetic films can be obtained for compositions around N/Co=1–1.5, whereas higher N2 contents lead to non-magnetic nitride phases. Significant changes in structural and magnetic properties are observed upon heating thin films in a TG(M) apparatus. Only the sample having a N/Co=1.5, when heat treated, appears to be made of a stable ferromagnetic phase. The N content is appropriate to keep Cr, Al and N, which exert an adverse effect on the magnetization of Co-Ni base alloys, out of the ferromagnetic phase in the form of separated nitride phases.
Magnetic properties and phase stability in Co-Ni base alloy thin films
Leoni, Matteo;Scardi, Paolo
2008-01-01
Abstract
Co-Ni base thin films were deposited by reactive radio frequency magnetron sputtering in N2+Ar atmosphere at different PN2/PAr partial pressure ratios. Only the nitrogen content in the films changes when changing PN2/PAr . Amorphous magnetic films can be obtained for compositions around N/Co=1–1.5, whereas higher N2 contents lead to non-magnetic nitride phases. Significant changes in structural and magnetic properties are observed upon heating thin films in a TG(M) apparatus. Only the sample having a N/Co=1.5, when heat treated, appears to be made of a stable ferromagnetic phase. The N content is appropriate to keep Cr, Al and N, which exert an adverse effect on the magnetization of Co-Ni base alloys, out of the ferromagnetic phase in the form of separated nitride phases.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
