Wall structure and energy on DWDD(Magneto-Optical Readout Method)
スポンサーリンク
概要
- 論文の詳細を見る
Wall structure and energy have been simulated for the Domain Wall Displacement Detection (DWDD), and the front process and the rear process under temperature gradient have been considered. For the front process, when the mark length is comparable with the domain wall width in the displacement (D) layer, the domain copied on the D-layer from the memory layer collapses. By making the D-layer thin, the minimum mark length for which the domain wall displacement occurs can be shortened. For the rear process, we confirmed that by inserting the control layer between the D-layer and the switching layer, the mark length with which the ghost signal is suppressed becomes longer. By making the anisotropy energy constant in the D-layer increase, improvement in the DWDD process is expected.
- 社団法人日本磁気学会の論文
- 2004-11-01
著者
-
Kobayashi T.
Faculty of Sci.Hiroshima Univ.
-
SHIOMI S.
Faculty of Agriculture, Okayama University
-
Shiomi S.
Faculty Of Engineering Mie Univ.
-
Ohshima A.
Faculty of Engineering, Mie Univ.
-
Kusano K.
Faculty of Engineering, Mie Univ.
-
Fujiwara Y.
Faculty of Engineering, Mie Univ.
-
Kaneko M.
Home Electronics Development Group, Sony Corp.
-
Kusano K
Faculty Of Engineering Mie Univ.
-
Shiomi S.
Faculty Of Agriculture Okayama University
関連論文
- 28a-H-2 Investigation of Resonace Transition X-ray Radiation
- EXPRESSION CHARACTERISTICS OF THREE 1-AMINOCYCLOPROPANE-1-CARBOXYLATE SYNTHASE GENGS IN CUCUMBER FRUIT UNDER CARBON DIOXIDE STRESS
- Preparation of magnetic tunnel transistors with double tunnel junctions
- Comparison of Transfer Ratio of Magnetic Tunnel Transistors(Magnetism and Spin Dynamics)
- Interface Wall Energy and Exchange-Coupling Energy in Antiferromagnetic Exchange-Coupling
- Wall structure and energy on DWDD(Magneto-Optical Readout Method)