Fabrication, Writing, and Reading of 10 Gbits/in^2 Longitudinal Quantized Magnetic Disks with a Switching Field over 1000 Oe
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概要
- 論文の詳細を見る
Quantized magnetic disks (QMDs) with a density of 10 Gbits/in^2 were fabricated using nanoimprint lithography and a lift-off process. Each bit in the QMD consists of a patterned single domain Co bar with a length of 200 nm, a width of 60 nm, and a bar spacing of 130 nm. Magnetic force microscope (MFM) was used to write and read the QMD. In 2.5 μm×2.5μm MFM window, error-free MFM writing has been achieved, even though there is no feedback control of the writing tip position and the Co bars switching field was as high as 1020 Oe.
- 社団法人応用物理学会の論文
- 1998-11-15
著者
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Chou S
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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Li Mingtao
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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Zhuang Lei
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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Cui Bo
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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KONG Linshu
NanoStructure Laboratory, Department of Electrical Engineering, Princeton University
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CHOU Stephen
NanoStructure Laboratory, Department of Electrical Engineering, Princeton University
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Kong L
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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Kong Linshu
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
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Chou Stephen
Nanostructure Laboratory Department Of Electrical Engineering Princeton University
関連論文
- Fabrication, Writing, and Reading of 10 Gbits/in^2 Longitudinal Quantized Magnetic Disks with a Switching Field over 1000 Oe
- Writing Bits of Longitudinal Quantized Magnetic Disk Using Magnetic Force Microscope Tip