Single-crystalline nanopillars for spin-transfer measurements
H. Dassow, R. Lehndorff, D.E. Buergler, M.Buchmeier, P.A. Gruenberg,, C.M. Schneider, A. van der Hart
TL;DR
This paper demonstrates current-induced magnetization switching in single-crystalline Fe-based nanopillars, revealing the effects of interface asymmetries on magnetic behavior at small fields and currents.
Contribution
It reports the first observation of CIMS in single-crystalline nanopillars with specific multilayer structures and interface properties, advancing spin-transfer research.
Findings
CIMS observed at small magnetic fields and opposite current polarity.
Step-like resistance changes indicate current-driven magnetic excitations.
Interface asymmetries enable control of magnetic switching behaviors.
Abstract
We report on current-induced magnetization switching (CIMS) in single- crystalline nanopillars. Fe(14 nm)/Cr(0.9 nm)/Fe(10 nm)/Ag(6 nm)/Fe(2 nm) multilayers are deposited by molecular-beam epitaxy. The central Fe layer is coupled to the thick one by interlayer exchange coupling over Cr. The topmost Fe layer is decoupled (free layer). Nanopillars with 150 nm diameter are prepared by optical and e-beam lithography. The opposite spin scattering asymmetries of Fe/Cr and Fe/Ag interfaces enable us to observe CIMS at small magnetic fields and opposite current polarity in a single device. At high magnetic fields, step-like resistance changes are measured at positive currents and are attributed to current-driven magnetic excitations.
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Taxonomy
TopicsMagnetic properties of thin films · Magnetic and transport properties of perovskites and related materials · Heusler alloys: electronic and magnetic properties