Egelhoff Jr., W.
, Chen, P.
, Powell, C.
, Parks, D.
, McMichael, R.
, Judy, J.
, Martien, D.
, Berkowitz, A.
and Daughton, J.
(1998),
Optimizing GMR Spin Valves: The Outlook for Improved Properties, Proceedings of the 1998 International Nonvolatile Memory Technology Conference, Undefined
(Accessed December 26, 2024)
Official websites use .gov
A .gov website belongs to an official government organization in the United States.
Secure .gov websites use HTTPS
A lock (
) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.
Optimizing GMR Spin Valves: The Outlook for Improved Properties
Published
Author(s)
, P J. Chen, , , , , D Martien, A. E. Berkowitz, J M. Daughton
Abstract
The current generation of giant magnetoresistance (GMR) spin valves exhibits performance characteristics which are not quite as good as desired for ultrahigh-density nonvolatile memory applications. This paper addresses the scientific issues underlying the challenge of making major improvements in the future generations of GMR spin valves, assesses the likelihood of making such improvements, and will outline some of the trade-offs in spin valve properties that will probably have to be made in memory applications. In our research on the underlying scientific issues, we have found that many of the magnetic and magnetoresistive properties of spin valves are strongly influenced by surface and interface effects occurring during film deposition.Proceedings Title
Proceedings of the 1998 International Nonvolatile Memory Technology Conference
Conference Dates
June 22-24, 1998
Conference Location
Undefined
Conference Title
IEEE International Nonvolatile Memory Technology Conference
Pub Type
Conferences
Keywords
giant magnetoresistance (GMR), magnetoresistive properties surfactants, spin valves, surface and interface effects
Citation
Issues
If you have any questions about this publication or are having problems accessing it, please contact reflib@nist.gov.
Created May 31, 1998, Updated October 12, 2021