Magnetostriction in Ni Nanowires: Coherent X-ray Diffraction and Density Functional Analysis

Erandi Wijerathna; Jong Woo Kim; San Wen Chen; Ross Harder; Sohini Manna; Boris Kiefer; Eric Fullerton; Edwin Fohtung; Jose de la Venta; Oleg G. Shpyrko

Magnetostriction in Ni Nanowires: Coherent X-ray Diffraction and Density Functional Analysis

ORAL

Abstract

Three-dimensional magnetostriction is mapped in Ni nanowires with the aid of Bragg coherent X-ray diffraction (BCXDI). By inverting the measured BCXDI patterns using iterative phase retrieval algorithms giant magnetostrictive strain are observed due to a differential anisotropy of the lattice displacements along the [111] and (001) directions. Density functional calculations performed is consistent with the experimental observation. Our finding paves the way for the fabrication and development of novel magnetostrictive sensor elements.

March 6, 2014, 5:18 PM – March 6, 2014, 5:30 PM

Authors

Erandi Wijerathna

Department of Physics, New Mexico State University
Jong Woo Kim

Department of Physics, UC San Diego
San Wen Chen

Department of Physics, UC San Diego
Ross Harder

Argonne National Lab, APS-Argonne National Lab
Sohini Manna

CMRR, UC San Diego, Univ of California - San Diego
Boris Kiefer

Department of Physics, New Mexico State University, New Mexico State University
Eric Fullerton

CMRR, UC San Diego
Edwin Fohtung

Department of Physics, New Mexico State University
Jose de la Venta

Department of Physics, Colorado State University, Univ of California - San Diego
Oleg G. Shpyrko

Department of Physics, UC San Diego, Univ of California - San Diego, Department of Physics and Center for Advanced Nanoscience, University of California San Diego