Time-resolved X-ray Imaging of Spin-Torque-Induced Vortex Oscillation

Xiaowei Yu; Vlad Pribiag; Yves Acremann; Venkatesh Chembrolu; Ashwin Tulapurkar; Tolek Tyliszczak; Zhipan Li; Robert A. Buhrman; Joachim Stohr; Hans Siegmann

Time-resolved X-ray Imaging of Spin-Torque-Induced Vortex Oscillation

ORAL

Abstract

Recent transport measurements demonstrated a persistent oscillation of a magnetic vortex isolated in a nanoscale spin valve structure driven by a d. c. spin-polarized current [1]. The magnetic information is inferred from the giant magnetoresistance (GMR) signal, which depends on the relative average magnetization of the two magnetic layers. Here, we report spatially resolved measurements of the vortex oscillation driven by spin-transfer torque by using advanced x-ray imaging technique. The microwave-frequency vortex oscillation is synchronized to the fast x-ray pulses. Motion images with 70ps time resolution and 30nm spatial resolution reveal the complicated dynamics underlying the previously observed oscillating GMR signal. [1] V. S. Pribiag, I. N. Krivorotov, G. D. Fuchs, P. M. Braganca, O. Ozatay, J. C. Sankey, D. C. Ralph, and R. A. Buhrman, Nature Physics 3, 498 (2007)

March 11, 2008, 1:42 PM – March 11, 2008, 1:54 PM

Authors

Xiaowei Yu
- Stanford University
Vlad Pribiag
- Cornell University
Yves Acremann
- Stanford Synchrotron Radiation Laboratory
Venkatesh Chembrolu
- Stanford University
- Department of Applied Physics, Stanford University, Stanford, California 94305, USA
Ashwin Tulapurkar
- Stanford Synchrotron Radiation Laboratory
Tolek Tyliszczak
- Advanced Light Source
Zhipan Li
- Cornell University
Robert A. Buhrman
- Cornell University
Joachim Stohr
- Stanford Synchrotron Radiation Laboratory
Hans Siegmann
- PULSE Center, Stanford Linear Accelerator Center