Salvato in:
Dettagli Bibliografici
Autori principali: Mo, Jiajun, Chinellato, Leandro M., Williams, Fletcher, Kikkawa, Akiko, Paddison, Joseph A. M., Frontzek, Matthias D., Sala, Gabriele, Pasco, Chris, Barros, Kipton, Nakajima, Taro, Arima, Taka-hisa, Taguchi, Yasujiro, Tokura, Yoshinori, Stone, Matthew B., Christianson, Andrew D., Batista, Cristian D., Gao, Shang
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2512.24071
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866918266120699904
author Mo, Jiajun
Chinellato, Leandro M.
Williams, Fletcher
Kikkawa, Akiko
Paddison, Joseph A. M.
Frontzek, Matthias D.
Sala, Gabriele
Pasco, Chris
Barros, Kipton
Nakajima, Taro
Arima, Taka-hisa
Taguchi, Yasujiro
Tokura, Yoshinori
Stone, Matthew B.
Christianson, Andrew D.
Batista, Cristian D.
Gao, Shang
author_facet Mo, Jiajun
Chinellato, Leandro M.
Williams, Fletcher
Kikkawa, Akiko
Paddison, Joseph A. M.
Frontzek, Matthias D.
Sala, Gabriele
Pasco, Chris
Barros, Kipton
Nakajima, Taro
Arima, Taka-hisa
Taguchi, Yasujiro
Tokura, Yoshinori
Stone, Matthew B.
Christianson, Andrew D.
Batista, Cristian D.
Gao, Shang
contents Topological spin textures in frustrated intermetallics hold great promise for spintronics applications. However, understanding their origin and properties remains a significant challenge due to competing and often long-range interactions mediated by conduction electrons. Here, by combining neutron scattering experiments with theoretical modeling via unprecedented multi-target fits that further incorporate the ferromagnentic resonance data and magnetization curve, we construct a realistic microscopic model for the prototypical intermetallic skyrmion host \text{Gd}$_3$\text{Ru}$_4$\text{Al}$_{12}$. Beyond magnetic frustration, we identify the competition between dipolar interactions and easy-plane single-ion anisotropy as a key ingredient for stabilizing the rich chiral magnetic phases observed in this compound -- including a hexagonal skyrmion crystal and two distinct meron crystals. Remarkably, the meron crystal in lower field is revealed to be commensurate with the underlying lattice, and its unique three-meron-one-antimeron spin texture is verified by the polarized x-ray diffraction data. At elevated temperatures, the short-range spin correlations in \text{Gd}$_3$\text{Ru}$_4$\text{Al}$_{12}$ are well described by a codimension-two spiral spin-liquid. Perturbations from staggered Dzyaloshinskii-Moriya interactions give rise to chiral fluctuations that account for the temperature and field dependence of the anomalous Hall response. Our results highlight the unique power of neutron scattering, especially when combined with complementary experimental techniques, to unravel complex magnetic phase transitions and provide new insights into the rich variety of topological spin textures in frustrated systems.
format Preprint
id arxiv_https___arxiv_org_abs_2512_24071
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Skyrmion and Meron Crystals in Intermetallic Gd$_3$Ru$_4$Al$_{12}$: Microscopic Model Insights into Chiral Phases
Mo, Jiajun
Chinellato, Leandro M.
Williams, Fletcher
Kikkawa, Akiko
Paddison, Joseph A. M.
Frontzek, Matthias D.
Sala, Gabriele
Pasco, Chris
Barros, Kipton
Nakajima, Taro
Arima, Taka-hisa
Taguchi, Yasujiro
Tokura, Yoshinori
Stone, Matthew B.
Christianson, Andrew D.
Batista, Cristian D.
Gao, Shang
Strongly Correlated Electrons
Materials Science
Topological spin textures in frustrated intermetallics hold great promise for spintronics applications. However, understanding their origin and properties remains a significant challenge due to competing and often long-range interactions mediated by conduction electrons. Here, by combining neutron scattering experiments with theoretical modeling via unprecedented multi-target fits that further incorporate the ferromagnentic resonance data and magnetization curve, we construct a realistic microscopic model for the prototypical intermetallic skyrmion host \text{Gd}$_3$\text{Ru}$_4$\text{Al}$_{12}$. Beyond magnetic frustration, we identify the competition between dipolar interactions and easy-plane single-ion anisotropy as a key ingredient for stabilizing the rich chiral magnetic phases observed in this compound -- including a hexagonal skyrmion crystal and two distinct meron crystals. Remarkably, the meron crystal in lower field is revealed to be commensurate with the underlying lattice, and its unique three-meron-one-antimeron spin texture is verified by the polarized x-ray diffraction data. At elevated temperatures, the short-range spin correlations in \text{Gd}$_3$\text{Ru}$_4$\text{Al}$_{12}$ are well described by a codimension-two spiral spin-liquid. Perturbations from staggered Dzyaloshinskii-Moriya interactions give rise to chiral fluctuations that account for the temperature and field dependence of the anomalous Hall response. Our results highlight the unique power of neutron scattering, especially when combined with complementary experimental techniques, to unravel complex magnetic phase transitions and provide new insights into the rich variety of topological spin textures in frustrated systems.
title Skyrmion and Meron Crystals in Intermetallic Gd$_3$Ru$_4$Al$_{12}$: Microscopic Model Insights into Chiral Phases
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2512.24071