| Literature DB >> 28990787 |
Licong Peng1,2, Ying Zhang1, Wenhong Wang1, Min He1,2, Lailai Li1,2, Bei Ding1,2, Jianqi Li1,2, Young Sun1,2, X-G Zhang3, Jianwang Cai1,2, Shouguo Wang4, Guangheng Wu1, Baogen Shen1,2.
Abstract
Magnetic skyrmions, particular those without the support of external magnetic fields over a wide temperature region, are promising as alternative spintronic units to overcome the fundamental size limitation of conventional magnetic bits. In this study, we use in situ Lorentz microscope to directly demonstrate the generation and sustainability of robust biskyrmion lattice at zero magnetic field over a wide temperature range of 16-338 K in MnNiGa alloy. This procedure includes a simple field-cooling manipulation from 360 K (higher than Curie temperature TC ∼ 350 K), where topological transition easily occurs by adapting the short-range magnetic clusters under a certain magnetic field. The biskyrmion phase is favored upon cooling below TC. Once they are generated, the robust high-density biskyrmions persist even after removing the external magnetic field due to the topological protection and the increased energy barrier.Entities:
Keywords: Biskyrmion lattice; Lorentz TEM; MnNiGa; field-cooling manipulation; topological transition; zero field
Year: 2017 PMID: 28990787 DOI: 10.1021/acs.nanolett.7b03792
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189