Saved in:
Bibliographic Details
Main Authors: Li, Yu, Coles, Jared, Gui, Xin, Park, Hyowon, Wu, Yan, Chen, Xinglong, Chen, Jing-han, Wang, Xiaoping, Cao, Huibo, Stadler, Shane, Chmaissem, Omar, Young, David P., Rosenkranz, Stephan, DiTusa, John F.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.11233
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908286442274816
author Li, Yu
Coles, Jared
Gui, Xin
Park, Hyowon
Wu, Yan
Chen, Xinglong
Chen, Jing-han
Wang, Xiaoping
Cao, Huibo
Stadler, Shane
Chmaissem, Omar
Young, David P.
Rosenkranz, Stephan
DiTusa, John F.
author_facet Li, Yu
Coles, Jared
Gui, Xin
Park, Hyowon
Wu, Yan
Chen, Xinglong
Chen, Jing-han
Wang, Xiaoping
Cao, Huibo
Stadler, Shane
Chmaissem, Omar
Young, David P.
Rosenkranz, Stephan
DiTusa, John F.
contents We have conducted a comprehensive investigation into the magnetic properties of the chiral multiferroic material CoTeMoO$_6$. In contrast with the previous claim of canted antiferromagnetic order with ferromagnetic components, our investigation reveals an antiferromagnetic ground state with compensated moments, providing an interesting platform for exploring exotic material properties. Through careful measurements of magnetization under a series of applied field, we demonstrate that there exist two sequential field-induced magnetic transitions in CoTeMoO$_6$, with one occurring at $H_{c1}$=460 Oe along the a-axis, and the other at $H_{c2}$=1.16 T with the field along the b-axis. The values of $H_{c1}$ and $H_{c2}$ exhibit strong angular dependence and diverge with different rates as the applied field is rotated 90 degrees within the ab plane. This reflects the distinct nature of these transitions, which is further supported by the different critical behavior of $H_{c1}$ and $H_{c2}$, characterized by the values of $γ$,in the function of $H_c=H_0\times(1-\frac{T}{T_c})^n$. Furthermore, we have demonstrated that there exist structural and magnetic twin domains in CoTeMoO$_6$ that strongly affect the experimental measurement of their macroscopic properties. Intriguingly, these twin domains can be related to the orthorhombicity/chirality of the crystal structure with the space group $P2_1 2_1 2$. We further explored the magnetic and structural domains with uniaxial pressure and polarized light microscopy. Our results suggest that CoTeMoO$_6$ could be used as a unique platform for investigating the intriguing physics involving intertwined degrees of freedom. The tunability of the underlying domain distribution and its strong anisotropy could also be useful for developing functional devices and applications.
format Preprint
id arxiv_https___arxiv_org_abs_2412_11233
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Structural and magnetic properties of CoTeMoO$_6$ revisited
Li, Yu
Coles, Jared
Gui, Xin
Park, Hyowon
Wu, Yan
Chen, Xinglong
Chen, Jing-han
Wang, Xiaoping
Cao, Huibo
Stadler, Shane
Chmaissem, Omar
Young, David P.
Rosenkranz, Stephan
DiTusa, John F.
Materials Science
We have conducted a comprehensive investigation into the magnetic properties of the chiral multiferroic material CoTeMoO$_6$. In contrast with the previous claim of canted antiferromagnetic order with ferromagnetic components, our investigation reveals an antiferromagnetic ground state with compensated moments, providing an interesting platform for exploring exotic material properties. Through careful measurements of magnetization under a series of applied field, we demonstrate that there exist two sequential field-induced magnetic transitions in CoTeMoO$_6$, with one occurring at $H_{c1}$=460 Oe along the a-axis, and the other at $H_{c2}$=1.16 T with the field along the b-axis. The values of $H_{c1}$ and $H_{c2}$ exhibit strong angular dependence and diverge with different rates as the applied field is rotated 90 degrees within the ab plane. This reflects the distinct nature of these transitions, which is further supported by the different critical behavior of $H_{c1}$ and $H_{c2}$, characterized by the values of $γ$,in the function of $H_c=H_0\times(1-\frac{T}{T_c})^n$. Furthermore, we have demonstrated that there exist structural and magnetic twin domains in CoTeMoO$_6$ that strongly affect the experimental measurement of their macroscopic properties. Intriguingly, these twin domains can be related to the orthorhombicity/chirality of the crystal structure with the space group $P2_1 2_1 2$. We further explored the magnetic and structural domains with uniaxial pressure and polarized light microscopy. Our results suggest that CoTeMoO$_6$ could be used as a unique platform for investigating the intriguing physics involving intertwined degrees of freedom. The tunability of the underlying domain distribution and its strong anisotropy could also be useful for developing functional devices and applications.
title Structural and magnetic properties of CoTeMoO$_6$ revisited
topic Materials Science
url https://arxiv.org/abs/2412.11233