(001)-oriented FePt/Ag composite films for perpendicular recording 被引量：1

(001)-oriented FePt/Ag composite films for perpendicular recording

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摘要 FePt/Ag thin films were deposited by magnetron sputtering onto 7059 glass substrates, then were annealed at 550 ℃ for 30 min. Nanostructured FePt/Ag films were successfully obtained with the magnetic easy axis of L10 FePt perpendicular to the film plane. It was found that the development of （001） texture depended strongly on the thicknesses of FePt magnetic layer and Ag underlayer. The L10 ordered FePt（15 nm）/Ag（50 nm） with （001） orientation can be obtained. And the perpendicular coercivity of FePt（15 nm）/Ag（50 nm） film reached to 7.2× 10^5 A/m, whereas the longitudinal one was only 3.2×10^4 A/m. The non-magnetic Ag underlayer can not only induce （001） orientation and ordering of FePt grains, but also reduce the intergrain interactions. FePt/Ag thin films were deposited by magnetron sputtering onto 7059 glass substrates, then were annealed at 550 ℃ for 30 min. Nanostructured FePt/Ag films were successfully obtained with the magnetic easy axis of L10 FePt perpendicular to the film plane. It was found that the development of （001） texture depended strongly on the thicknesses of FePt magnetic layer and Ag underlayer. The L10 ordered FePt（15 nm）/Ag（50 nm） with （001） orientation can be obtained. And the perpendicular coercivity of FePt（15 nm）/Ag（50 nm） film reached to 7.2× 10^5 A/m, whereas the longitudinal one was only 3.2×10^4 A/m. The non-magnetic Ag underlayer can not only induce （001） orientation and ordering of FePt grains, but also reduce the intergrain interactions.

作者 Wenfeng LIU Fang WANG Xiaohong XU

机构地区 College of Materials Science and Engineering School of Chemistry and Materials Science

出处《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2009年第5期392-396,共5页 金属学报（英文版）

关键词 FePt/Ag thin films （001） orientation FePt magnetic layer Agunderlayer Intergrain interaction FePt/Ag thin films （001） orientation FePt magnetic layer Agunderlayer Intergrain interaction

分类号 O48 [理学—固体物理]

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参考文献11

1王惠,马德军.残余压应力场中薄膜纳米测量硬度的变化与校正[J].机械工程师,2005(11):70-72. 被引量：3
2A.C.Sun,J.H.Hsu,P.C.Kuo,H.L.Huang,H.C.Lu,S.F.Wang. Journal of Magnetism and Magnetic Materials . 2007
3S.Suzuki. IEEE Transactions on Magnetics . 1984
4K.R.Coffey,M.A.Parker,J.K.Howard. IEEE Transactions on Magnetics . 1995
5K.Kang,Z.G.Zhang,C.Papusoi,T.Suzuki. Applied Physics Letters . 2003
6Y.N.Hsu,S.Jeong,D.N.Lambeth,D.E.Laughlin. IEEE Transactions on Magnetics . 2000
7J.J.Delaunay,T.Hayashi,M.Tomita,S.Hirono. IEEE Transactions on Magnetics . 1998
8E.P.Wolfforth. Journal of Applied Physics . 1958
9Z.L.Zhao,J.S.Chen,J.Ding,K.Inaba,J.P.Wang. Journal of Magnetism and Magnetic Materials . 2004
10C.P. Luo,and D.J. Sellmyer.Magnetic properties and structure of Fe/Pt thin films[].IEEE Transactions on Magnetics.1995

二级参考文献6

1G. Abadias, Y. Y. Tse. Determination of intrinsic stresses in textured and epitaxial TiN thin films deposited by dual ion beam sputtering [J].Surface & Coatings Technology, 2004,180-181:33-40.
2Oliver W C, Pharr G M. An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experinents[J]. J Mater Res, 1992,7(6):1564-1583.
3Tsui TY, Oliver W C, Pharr G M. Influence of stress on the measurement of mechanical properties using nanoindentation:partI.Experimental studies in an aluminum alloy [J]. J Mater Res,1996, 11(3):752-759.
4Pelletier H, Krier J, Cornet A,et al. Limits of using bilinear stress_strain curve for finite element modeling of nanoindentation response on bulk materials[J].Thin Solid Films,2000,379(1):147-155.
5Dao M, Chollaeoop N, Van Vliet K J,et al. Computational modeling of the forward and reverse problems in instrumented sharp indentation[J]. Acta Mater,2001,49(19) :3899-3918.
6Hibbitt, Karlsson, Sorensen Inc. ABAQUS Theory Manual Version 6.2. Pawtucket[Z]. 2000.

共引文献2

1王惠,马德军.非理想情况下薄膜Oliver&Pharr压入硬度的校正[J].机械工程师,2008(7):28-30.
2喻利花,王杰,许俊华.Al含量对(V,W,Al)N复合膜微观组织和抗氧化性能的影响[J].材料热处理学报,2014,35(10):172-177.

引证文献1

1刘梅,陈芳慧,王永红,张玉梅,李海波.C底层厚度对FePt(001)织构生长的影响[J].兵器材料科学与工程,2011,34(4):9-12. 被引量：5

二级引证文献5

1欧阳莹雪,章黎,何慧,蒋俊程,刘成英.FePtAg-C纳米颗粒薄膜的制备及表征[J].真空与低温,2014,20(6):360-363.
2刘梅,鲁铭,王世苗,徐仕翀,李海波.还原温度对FeCo/SiO_2薄膜结构和磁性的影响[J].兵器材料科学与工程,2015,38(5):23-26. 被引量：4
3韩锦婉,章黎,郦宇琦,蒋俊程,吴世锦,郑洁.FePt-C颗粒薄膜的制备和表征[J].材料科学,2014,4(4):134-138.
4胡海琴,章黎,韩锦婉,蒋俊程,何慧.FePt-SiO<sub>2</sub>纳米颗粒薄膜的制备和表征[J].材料科学,2016,6(1):26-31.
5韩锦婉,章黎,蒋俊程,郑晨露,胡海琴.高密度垂直磁存储FePt颗粒薄膜媒质的研究[J].材料科学,2016,6(4):251-255.

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2黄宇欣,杨玉军,武斌,郭福明,朱颀人.Cyclic State Orientation of Polar Molecules Produced by a Train of Half-Cycle Pulse Clusters of a Long Repetition Period[J].Chinese Physics Letters,2008,25(4):1259-1262.
3许小红,王芳,武海顺.[FePt/Ag]_(10)多层膜的结构和磁学性能[J].科学通报,2004,49(19):1950-1953. 被引量：5
4赵书华,刘梅,王永红,张玉梅,李海波.磁场退火对FePt/Ag薄膜磁性能的影响[J].电子元件与材料,2010,29(1):32-34.
5丁兴龙.“定向力发生装置”设计[J].科技创新导报,2013,10(27):19-20.
6于红云,孙会元,封顺珍,高凤菊,周鸿娟,聂向富,孙玉平.Microstructure and magnetic properties of granularFePt/(FePt)_(27)Ti_(73) films for ultrahigh-density recording media[J].Journal of Central South University of Technology,2005,12(2):155-158. 被引量：2
7龙华,杨光,陈爱平,李玉华,陆培祥.Multilayer Au/TiO2Composite Films with Ultrafast Third-Order Nonlinear Optical Properties[J].Chinese Physics Letters,2008,25(11):4135-4138.
8李宝河,黄阀,杨涛,冯春,翟中海,朱逢吾.垂直取向FePt/Ag纳米颗粒薄膜的结构和磁性[J].物理学报,2005,54(8):3867-3871. 被引量：7
9Ji-Xi Guo,Ming-Xi Guo,Dian-Zeng Jia,Yin-Hua Li.Preparation and photochromic properties of pyrazolones/polyvinyl alcohol composite films[J].Chinese Chemical Letters,2017,28(2):280-284.
10V.Dalouji,S.M.Elahi,A.Ghaderi,S.Solaymani.Influence of Annealing Temperature on Berthelot-Type Hopping Conduction Mechanism in Carbon-Nickel Composite Films[J].Chinese Physics Letters,2016,33(5):92-95.

Acta Metallurgica Sinica(English Letters)

2009年第5期

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