Nano-patterning of Co/Pt multilayers.

Metlushko, V.; Crabtree, G.; Welp, U.; Vlasko-Vlasov, V.; Baldo, P.; Rehn, L. E.; Kirk, M.; Ilic, B.; Zhang, S.; Brueck, S. R. J.; Terris, B.

Nano-patterning of Co/Pt multilayers. Metadata

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Title

Main Title Nano-patterning of Co/Pt multilayers.

Creator

Author: Metlushko, V.

Creator Type: Personal
Author: Crabtree, G.

Creator Type: Personal
Author: Welp, U.

Creator Type: Personal
Author: Vlasko-Vlasov, V.

Creator Type: Personal
Author: Baldo, P.

Creator Type: Personal
Author: Rehn, L. E.

Creator Type: Personal
Author: Kirk, M.

Creator Type: Personal
Author: Ilic, B.

Creator Type: Personal
Author: Zhang, S.

Creator Type: Personal
Author: Brueck, S. R. J.

Creator Type: Personal
Author: Terris, B.

Creator Type: Personal

Contributor

Sponsor: United States. Department of Energy.

Contributor Type: Organization

Contributor Info: US Department of Energy (United States)

Publisher

Name: Argonne National Laboratory

Place of Publication: Illinois

Additional Info: Argonne National Lab., IL (United States)

Date

Creation: 2001-07-24

Language

English

Description

Content Description: One of the most promising new systems for both basic research and technical development are the periodic arrays of nano-magnetic elements, as shown. Such arrays show remarkably rich and novel magnetic behavior. Periodic magnetic arrays not only provide excellent opportunities for new science but also constitute a promising candidate for new applications such as high-density, patterned magnetic memory for advanced computer designs in the next decade. In the presentation they will focus on patterned [Co4 {angstrom}/Pt10 {angstrom}]n multilayers, which demonstrate an unusually strong out-of-plane magnetic anisotropy and sensitivity to structural modification. This strong out-of-plane anisotropy makes Co/Pt ML the favorite candidates for perpendicular magnetic recording. The patterned Co/Pt ML are representatives of a new generation of magnetic nanostructures with lateral dimensions in 100 nm range, and individual layer thickness approaching a monolayer scale (e.g., 4 {angstrom} of Co and 10 {angstrom} of Pt). In addition to traditional lithography, they are developing a new approach to tailoring the local magnetic properties of Co/Pt ML. In this process the local magnetic properties are modified not through conventional modulation of the chemical composition, but through structural modification induced by low energy ion implantation.
Physical Description: 3 pages

Subject

Keyword: Magnetic Properties
STI Subject Categories: 36 Materials Science
Keyword: Dimensions
Keyword: Ion Implantation
Keyword: Computers
Keyword: Modulation
Keyword: Chemical Composition
Keyword: Thickness
Keyword: Sensitivity
Keyword: Modifications
Keyword: Anisotropy

Source

Conference: IEEE Conference on Nanotechnology (IEEE-NANO 2001), Maui, HI (US), 10/28/2001--10/30/2001

Collection

Name: Office of Scientific & Technical Information Technical Reports

Code: OSTI

Institution

Name: UNT Libraries Government Documents Department

Code: UNTGD

Resource Type

Article

Format

Text

Identifier

Report No.: ANL/MSD/CP-105397
Grant Number: W-31-109-ENG-38
Office of Scientific & Technical Information Report Number: 797878
Archival Resource Key: ark:/67531/metadc733563