Title :
Effect of Ag Segregation on Reversal Behavior of (FePt)77 Ag23 Alloy Thin Films
Author :
Chen, S.K. ; Hsu, C.W. ; Yuan, F.T. ; Hsiao, S.N. ; Chang, H.W. ; Sun, A.C. ; Liao, W.M. ; Wei, D.H. ; Lee, H.Y. ; Huang, H.W. ; Hsu, Y.W. ; Yao, Y.D.
Author_Institution :
Dept. of Material Sci. & Eng., Feng Chia Univ., Taichung
fDate :
6/1/2007 12:00:00 AM
Abstract :
Effect of Ag segregation on magnetic and structural properties of (FePt)77 Ag23 single-layer films were studied. Thin films were first sputtered on the heated glass substrates and cooled to room temperature, a post annealing at temperatures (Tp) from 200 degC to 400 degC for 60 min was then applied. Ll0 structure formed as substrate temperature (Ts) equals to 600 degC and 700 degC. For those ordered films, Ag was observed to precipitate as particles on the film surface and grow with the increasing Ts. After post annealing at 400 degC for 60min, those silver particles dissolved into the film, leading to changes in reversal behavior. The optimum condition is obtained in the Ts=600degC, Tp=400degC sample. Drastic reduction in coercive squareness ratio (from >0.8 to 0.41) and enhanced coercivity (from 4.7 to 6.4 kOe) indicate the reversal behavior alters from cooperative to independent. Negative deltaM curve suggests that this independent rotation results from the reduction of exchange interactions
Keywords :
annealing; coercive force; exchange interactions (electron); iron alloys; magnetic thin films; magnetisation reversal; platinum alloys; segregation; silver alloys; (FePt)77Ag23; (FePt)77Ag23 alloy thin films; 200 to 400 degC; 600 degC; 700 degC; annealing; coercive squareness ratio; enhanced coercivity; exchange interactions; film surface; heated glass substrates; magnetic properties; reversal behavior; segregation; structural properties; Annealing; Coercive force; Elementary particle exchange interactions; Glass; Magnetic films; Magnetic properties; Silver; Sputtering; Substrates; Temperature; Coercivity enhancement; FePt; domain structure; reversal behavior; segregation; thin film;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.893128
