Article abstract
Nature Physics 4, 67 - 71 (2008)
Published online: 25 November 2007 | doi:10.1038/nphys783
Subject Categories: Condensed-matter physics | Electronics, photonics and device physics
Measurement of the spin-transfer-torque vector in magnetic tunnel junctions
Jack C. Sankey1, Yong-Tao Cui1, Jonathan Z. Sun2, John C. Slonczewski2,3, Robert A. Buhrman1 & Daniel C. Ralph1
Abstract
The transfer of spin angular momentum from a spin-polarized current to a ferromagnet can generate sufficient torque to reorient the magnet's moment. This torque could enable the development of efficient electrically actuated magnetic memories and nanoscale microwave oscillators. Yet difficulties in making quantitative measurements of the spin-torque vector have hampered understanding. Here we present direct measurements of both the magnitude and direction of the spin torque in magnetic tunnel junctions, the type of device of primary interest for applications. At low bias V, the differential torque d
/dV lies in the plane defined by the electrode magnetizations, and its magnitude is in excellent agreement with recent predictions for near-perfect spin-polarized tunnelling. We find that the strength of the in-plane differential torque remains almost constant with increasing bias, despite a substantial decrease in the device magnetoresistance, and that with bias the torque vector also rotates out of the plane.
- Cornell University, Ithaca, New York 14853, USA
- IBM T. J. Watson Research Center, Yorktown Heights, New York 10598, USA
- IBM RSM Emeritus
Correspondence to: Daniel C. Ralph1 e-mail: ralph@ccmr.cornell.edu
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