New structured planar write head for 100 Gb/in2 and beyond

被引:4
|
作者
Kanai, Y [1 ]
Matsubara, R
Fujiwara, K
Takahashi, N
机构
[1] Niigata Inst Technol, Kashiwazaki 9451195, Japan
[2] Okayama Univ, Okayama 7008530, Japan
来源
IEEE TRANSACTIONS ON MAGNETICS | 2002年 / 38卷 / 05期
基金
日本学术振兴会;
关键词
crosstrack field; finite-element methods; high-track-density recording; planar-type write head; recording field strength;
D O I
10.1109/TMAG.2002.802656
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A planar-type write head (proposed by Storage Research Consortium, Japan) for high-density longitudinal magnetic recording, is investigated by using transient finite-element analysis. First, conventional write heads are analyzed and the issue is discussed. Then, a planar-type write head is examined and possibilities (large recording field strength) and issues (large crosstrack field) are noted. Finally, head structure optimization using the finite-clement method is carried out. Improving the crosstrack field has been realized at a small cost of reducing the on-track field. The obtained planar head has a large recording field, large recording field gradient, and less crosstrack field, all of which are suitable for higher density magnetic recording.
引用
收藏
页码:2210 / 2212
页数:3
相关论文
共 50 条
  • [1] To 100 Gb/in2 and beyond in magneto-optic recording
    Karns, D
    Zhai, J
    Herget, P
    Song, H
    Gamble, A
    Stancil, DD
    Kumar, BVKV
    Schlesinger, TE
    OPTICAL DATA STORAGE 2000, 2000, 4090 : 238 - 245
  • [2] To 100 Gb/in2 and beyond in magneto-optic recording
    Karns, D
    Zhai, J
    Song, H
    Gamble, A
    Stancil, DD
    Kumar, BVKV
    Schlesinger, TE
    2000 OPTICAL DATA STORAGE, CONFERENCE DIGEST, 2000, : 176 - 178
  • [3] Technologies for magnetic tape recording at 100Gb/in2 and beyond
    Lantz, M.
    Furrer, S.
    Engelen, J. B.
    Pantazi, A.
    Rothuizen, H.
    Cideciyan, R. D.
    Cherubini, G.
    Haeberle, W.
    Jelitto, J.
    Eleftheriou, E.
    Oyanagi, M.
    Morooka, A.
    Mori, M.
    Kurihashi, Y.
    Kaneko, T.
    Tada, T.
    Suzuki, H.
    Harasawa, T.
    Shimizu, O.
    Ohtsu, H.
    Noguchi, H.
    2015 IEEE MAGNETICS CONFERENCE (INTERMAG), 2015,
  • [4] Interface tribology for 100 Gb/in2
    Menon, AK
    TRIBOLOGY INTERNATIONAL, 2000, 33 (5-6) : 299 - 308
  • [5] Recent progress in electron beam mastering for 100Gb/in2 and beyond
    Furuki, M
    Takeda, M
    Yamamoto, M
    Saito, K
    Shinoda, M
    Fujiki, T
    Aki, Y
    OPTICAL DATA STORAGE 2004, 2004, 5380 : 47 - 55
  • [6] Perpendicular recording near 100 Gb/in2
    Eppler, WR
    Sunder, A
    Karns, DW
    Kurtas, EM
    Ju, GA
    Wu, X
    van der Heijden, AA
    Kubota, Y
    Zhou, H
    Chang, CH
    IEEE TRANSACTIONS ON MAGNETICS, 2003, 39 (02) : 663 - 667
  • [7] Design of laminated antiferromagnetically coupled media for beyond 100 Gb/in2 areal density
    Wang, J.P., 1600, American Institute of Physics Inc. (91):
  • [8] Micromagnetic model of perpendicular head and double-layer media for 100 Gb/in2
    Victora, RH
    Khan, M
    IEEE TRANSACTIONS ON MAGNETICS, 2002, 38 (01) : 181 - 185
  • [9] Design of laminated antiferromagnetically coupled media for beyond 100 Gb/in2 areal density
    Wang, JP
    Piramanayagam, SN
    Hee, CH
    Huang, L
    Pang, SI
    Chow, SK
    Shi, X
    Chong, TC
    JOURNAL OF APPLIED PHYSICS, 2002, 91 (10) : 7694 - 7696
  • [10] Measurements of the write error rate in bit patterned magnetic recording at 100-320 Gb/in2
    Grobis, M.
    Dobisz, E.
    Hellwig, O.
    Schabes, M. E.
    Zeltzer, G.
    Hauet, T.
    Albrecht, T. R.
    APPLIED PHYSICS LETTERS, 2010, 96 (05)
12345