Momentum transfer resolved memory in a magnetic system with perpendicular anisotropy

Keoki Seu; Sujoy Roy; Run Su; Dan Parks; Erik Shipton; Eric Fullerton; Steve Kevan

Momentum transfer resolved memory in a magnetic system with perpendicular anisotropy

ORAL

Abstract

We have used resonant, coherent soft x-ray scattering to measure wave vector resolved magnetic domain memory in Co/Pd multilayers. The technique uses angular cross correlation functions and can be applied to any system with circular annuli of constant values of scattering wave vector {\bf q}. In our Co/Pd film, the memory exhibits a maximum at {\bf q}=0.0384 nm$^{\rm -1}$ near initial reversal that decreases in magnitude as the magnetization is further reversed. The peak is attributed to bubble domains that nucleate reproducibly near initial reversal and which grow into a labyrinth domain structure that is not reproduced from one magnetization cycle to the next.

Feb. 29, 2012, 5:06 PM – Feb. 29, 2012, 5:18 PM

Authors

Keoki Seu
- Advanced Light Source, Lawrence Berkeley National Laboratory
- Lawrence Berkeley National Laboratory
- Advanced Light Source, Lawrence Berkeley National Lab
Sujoy Roy
- Advanced Light Source, Lawrence Berkeley National Laboratory
Run Su
- Physics Department, University of Oregon
Dan Parks
- Physics Department, University of Oregon
Erik Shipton
- Physics Department, University of California at San Diego
Eric Fullerton
- Physics Department, University of California at San Diego
Steve Kevan
- Physics Department, University of Oregon
- Department of Physics, University of Oregon