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Main Authors: Pradhan, Suman Kalyan, Debnath, Tuhin, Wu, Rui
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.18741
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author Pradhan, Suman Kalyan
Debnath, Tuhin
Wu, Rui
author_facet Pradhan, Suman Kalyan
Debnath, Tuhin
Wu, Rui
contents Materials hosting diverse topological spin textures hold significant potential for spintronic applications. In this context, CrTe1.38, a quasi-two-dimensional material, stands out due to its stable N'eel-type skyrmion phase over a wide temperature range, both with and without an applied magnetic field [APL 125, 152402 (2024)]. Thus, it is a promising candidate for investigating complex magnetic phenomena, offering valuable insights into the underlying magnetic interactions. This study investigates the critical behavior of CrTe1.38 near TC by measuring DC magnetic isotherms. A systematic analysis of these isotherms with the magnetic field applied along the easy axis allows us to determine the asymptotic critical exponents: beta = 0.314, gamma = 1.069, and delta = 4.556, where the Widom scaling law and scaling equations are verified the self-consistency and reliability. In this system, the magnetic exchange coupling J(r) is the long-range type and decays spatially at a rate slower than approximately 4.651. Most notably, a series of vertical lines in the low-field region of the initial magnetization curves below TC supports the existence of a skyrmion phase in this compound
format Preprint
id arxiv_https___arxiv_org_abs_2502_18741
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Critical scaling behavior in skyrmion host ferromagnet CrTe1.38
Pradhan, Suman Kalyan
Debnath, Tuhin
Wu, Rui
Materials Science
Materials hosting diverse topological spin textures hold significant potential for spintronic applications. In this context, CrTe1.38, a quasi-two-dimensional material, stands out due to its stable N'eel-type skyrmion phase over a wide temperature range, both with and without an applied magnetic field [APL 125, 152402 (2024)]. Thus, it is a promising candidate for investigating complex magnetic phenomena, offering valuable insights into the underlying magnetic interactions. This study investigates the critical behavior of CrTe1.38 near TC by measuring DC magnetic isotherms. A systematic analysis of these isotherms with the magnetic field applied along the easy axis allows us to determine the asymptotic critical exponents: beta = 0.314, gamma = 1.069, and delta = 4.556, where the Widom scaling law and scaling equations are verified the self-consistency and reliability. In this system, the magnetic exchange coupling J(r) is the long-range type and decays spatially at a rate slower than approximately 4.651. Most notably, a series of vertical lines in the low-field region of the initial magnetization curves below TC supports the existence of a skyrmion phase in this compound
title Critical scaling behavior in skyrmion host ferromagnet CrTe1.38
topic Materials Science
url https://arxiv.org/abs/2502.18741