Reducing the critical switching current of magnetic multilayers -- an ab-initio approach.

Paul Haney; Derek Waldron; Alvaro Nunez; Rembert Duine; Hong Guo; Allan MacDonald

Reducing the critical switching current of magnetic multilayers -- an ab-initio approach.

ORAL

Abstract

We examine strategies for reducing the critical switching current density of spin valve structures, including the dual spin filter (DSF) design, and the use of depolarizing materials outside of the magnetic layers. We study both ideas from first principles using the non-equilibrium Green's function formalism and direct microscopic evaluation [1] of spatially resolved spin transfer torque contributions. We compare the spin torques present in simple Co-Cu-Co sandwiches with those in the DSF structure. In addition we study the role of Ru layer in enhancing the spin transfer efficiency, exploring the physical origin of Ruthenium's apparent usefulness in microscopic detail. [1] Haney et al.. cond-mat/0611534

March 7, 2007, 1:54 PM – March 7, 2007, 2:06 PM

Authors

Paul Haney
- U. Texas at Austin
Derek Waldron
- McGill University
Alvaro Nunez
- Instituto de Fisica, PUCV
Rembert Duine
- Utrecht University
Hong Guo
- McGill University
Allan MacDonald
- University of Texas at Austin
- The University of Texas at Austin
- U. Texas at Austin
- Department of Physics, The University of Texas at Austin
- The University of Texas at Austin, Department of Physics
- Univ of Texas
- Department of Physics, University of Texas