| Literature DB >> 26674206 |
Paul Simon1, Daniel Wolf2, Changhai Wang1, Aleksandr A Levin1, Axel Lubk2, Sebastian Sturm2, Hannes Lichte2, Gerhard H Fecher1, Claudia Felser1.
Abstract
We present the synthesis of Co2FeGa Heusler nanowires and the results of our investigations on their three-dimensional (3D) electric and magnetic internal and external fields mapped by electron holographic tomography (EHT). These fields will be of great importance in next-generation nanomagnets integrated in spintronics and memory devices. The Co2FeGa nanowires with a L21 ordered structure are prepared by a SBA-15 silica-assisted method. The magnetic dipole-like stray fields of several Co2FeGa nanowires are revealed by holographically reconstructed phase images. Based on the measured magnetic phase shifts of an individual nanowire and its 3D reconstruction using EHT, we obtain an internal magnetic induction with a magnitude of 1.15 T and a nonmagnetic surface layer of 10 nm thickness. Furthermore, we also reconstruct the 3D distribution of the electrostatic potential of the same nanowire.Entities:
Keywords: Heusler nanowires; electron holographic tomography; ferromagnetism; magnetic induction mapping
Year: 2015 PMID: 26674206 DOI: 10.1021/acs.nanolett.5b03102
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189