Toroidic phase transitions in a direct-kagome artificial spin ice

Ferrotoroidicity, the fourth form of primary ferroic order, breaks both space and time inversion symmetry. So far, direct observation of ferrotoroidicity in natural materials remains elusive, which impedes the exploration of ferrotoroidic phase transitions. Here, we overcome the limitations of natur...

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Published in:arXiv.org 2024-04
Main Authors: Wen-Cheng, Yue, Yuan, Zixiong, Huang, Peiyuan, Sun, Yizhe, Gao, Tan, Yang-Yang, Lyu, Tu, Xuecou, Dong, Sining, He, Liang, Dong, Ying, Cao, Xun, Kang, Lin, Wang, Huabing, Wu, Peiheng, Nisoli, Cristiano, Yong-Lei, Wang
Format: Article
Language:English
Subjects:
Ice formation
Iron constituents
Low temperature
Magnetic force microscopy
Monte Carlo simulation
Phase transitions
Spin ice
Online Access:Get full text
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Summary:Ferrotoroidicity, the fourth form of primary ferroic order, breaks both space and time inversion symmetry. So far, direct observation of ferrotoroidicity in natural materials remains elusive, which impedes the exploration of ferrotoroidic phase transitions. Here, we overcome the limitations of natural materials using an artificial nanomagnet system that can be characterized at the constituent level and at different effective temperatures. We design a nanomagnet array as to realize a direct-kagome spin ice. This artificial spin ice exhibits robust toroidal moments and a quasi-degenerate ground state with two distinct low-temperature toroidal phases: ferrotoroidicity and paratoroidicity. Using magnetic force microscopy and Monte Carlo simulation, we demonstrate a phase transition between ferrotoroidicity and paratoroidicity, along with a crossover to a non-toroidal paramagnetic phase. Our quasi-degenerate artificial spin ice in a direct-kagome structure provides a model system for the investigation of magnetic states and phase transitions that are inaccessible in natural materials.
ISSN:2331-8422
DOI:10.48550/arxiv.2404.19377