C.T. Lie
National Taiwan University
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Publication
Featured researches published by C.T. Lie.
IEEE Transactions on Magnetics | 2003
S.C. Chen; P. C. Kuo; A.C. Sun; C.T. Lie; C.C. Chiang
We have fabricated granular nanocomposite [(FePt)/sub 100-x/-Cr/sub x/]/sub 100-/spl delta//-(SiN)/sub /spl delta// thin films with x=0-25 at.% and /spl delta/=0-30 vol.% on natural-oxidized silicon substrate by dc and radio-frequency magnetron cosputtering of FePt, Cr, and Si/sub 3/N/sub 4/ targets. We annealed the as-deposited film in vacuum at 600/spl deg/C and then quenched it with ice water in order to transform the soft magnetic face-centered cubic /spl gamma/-FePt phase to the hard magnetic face-centered tetragonal /spl gamma//sub 1/-FePt phase (L1/sub 0/ phase). Transmission electron microscopy observation indicated that Cr and SiN can restrain the grain growth of magnetic grains, and that the structure of the film is a nonmagnetic SiN matrix with FePtCr particles dispersed in it. Average grain size of the magnetic particles decreased as Cr or SiN content increased. Energy dispersed spectrum (EDS) analysis showed that Cr exists mainly in the grain surface area (between the grain boundary and the inner grain) of the magnetic grains. The magnetic grains are isolated by SiN and magnetic grain interactions are reduced as Cr or SiN content is increased. Increasing the SiN volume fraction increases the thermal stability of the film. We found the [(FePt)/sub 90/-Cr/sub 10/]/sub 85/-(SiN)/sub 15/ film, annealed at 600/spl deg/C for 30 min, is suitable for high-density magnetic recording. Average grain size of the FePtCr in this film is about 9.5 nm. Its in-plane coercivity H/sub c/// is 3.7 kOe, saturation magnetization M/sub s/ is 450 emu/cm/sup 3/, and in-plane squareness S/sub /// is about 0.75.
IEEE Transactions on Magnetics | 2003
C.T. Lie; P. C. Kuo; A.C. Sun; C.Y. Chou; S.C. Chen; I. J. Chang; T. H. Wu; Jyh-Yih Chen
In this paper, we improve MR value of the sintered Fe/sub 3/O/sub 4/ ferrite at room temperature, and microstructure on its magnetoresistance at room temperatures were investigated.
Materials Science and Engineering B-advanced Functional Solid-state Materials | 2004
W.T. Hsu; S.C. Chen; P. C. Kuo; C.T. Lie; W.S Tsai
Journal of Magnetism and Magnetic Materials | 2001
S.C. Chen; P. C. Kuo; C.T. Lie; J.T. Hua
Materials Science and Engineering B-advanced Functional Solid-state Materials | 2002
S.C. Chen; P. C. Kuo; A.C. Sun; C.T. Lie; W.C Hsu
Materials Science and Engineering B-advanced Functional Solid-state Materials | 2003
S.C. Chen; P. C. Kuo; S.T. Kuo; A.C. Sun; C.T. Lie; C.Y. Chou
Journal of Magnetism and Magnetic Materials | 2002
C.T. Lie; P. C. Kuo; W.T. Hsu; I.J. Chang; J.W. Chen
Journal of Magnetism and Magnetic Materials | 2004
A.C. Sun; P. C. Kuo; C.Y. Chou; S.C. Chen; C.T. Lie; M.H. Lin; Jyh-Yih Chen; H. L. Huang
Journal of Magnetism and Magnetic Materials | 2004
C.T. Lie; P. C. Kuo; C.Y. Chou; S.C. Chen; T. H. Wu; A.C. Sun
Journal of Magnetism and Magnetic Materials | 2004
C.Y. Chou; P. C. Kuo; Y. D. Yao; S.C. Chen; C.T. Lie; A.C. Sun
