Title :
TiN and TiC interlayers for FePt-C based magnetic recording media
Author :
Cher, Kelvin M. ; Zhou, Tie Jun ; Lim, W.K. ; Hu, Jiang Feng ; Lwin, P.W.
Author_Institution :
Data Storage Inst., Singapore, Singapore
fDate :
Oct. 31 2012-Nov. 2 2012
Abstract :
Conductive TiN and TiC interlayers were utilized to promote epitaxial growth of (001)-textured FePt in place of the traditional non-conductive MgO interlayer. The film structure was given as Glass/CrRu/(TiC or TiN)/FePt-C. The films were fabricated under constant deposition temperature of 350°C for all three layers. Both TiN and TiC were capable of inducing (001)-textured FePt with square magnetic hysteresis loops and out-of-plane coercivity of up to 4kOe. Further increase in FePt recording layer deposition temperature to 500°C resulted in monotonic increase in coercivity of up to 9kOe whilst still maintaining strong perpendicular anisotropy, large magnetic squareness, and a small in-plane component. Subsequent doping of up to 40 vol. % C in FePt led to further increases in coercivity beyond 15kOe together with reduction in intergranular lateral exchange coupling.
Keywords :
carbon; chromium alloys; coercive force; conducting materials; doping; epitaxial growth; exchange interactions (electron); glass; iron alloys; magnetic epitaxial layers; magnetic hysteresis; magnetic multilayers; perpendicular magnetic anisotropy; perpendicular magnetic recording; platinum alloys; ruthenium alloys; sputter deposition; surface texture; titanium compounds; (001)-textured film; SiO2-CrRu-TiC-FePt-C; SiO2-CrRu-TiN-FePt-C; conductive interlayers; constant deposition temperature; doping; epitaxial growth; film structure; intergranular lateral exchange coupling; large magnetic squareness; magnetic recording media; out-of-plane coercivity; recording layer deposition temperature; small in-plane component; square magnetic hysteresis loops; strong perpendicular anisotropy; temperature 350 degC; temperature 500 degC; Coercive force; Couplings; Glass; Magnetic recording; Perpendicular magnetic anisotropy; Tin; FePt; Interlayer; TiC; TiN;
Conference_Titel :
APMRC, 2012 Digest
Conference_Location :
Singapore
Print_ISBN :
978-1-4673-4734-1
