Unprecedentedly Wide Curie-Temperature Windows as Phase-Transition   Design Platform for Tunable Magneto-Multifunctional Materials

Zhi-Yang Wei; En-Ke Liu; Yong Li; Gui-Zhou Xu; Xiao-Ming Zhang,; Guo-Dong Liu; Xue-Kui Xi; Hong-Wei Zhang; Wen-Hong Wang; Guang-Heng Wu; and; Xi-Xiang Zhang

arXiv:1507.05905·cond-mat.mtrl-sci·July 22, 2015

Unprecedentedly Wide Curie-Temperature Windows as Phase-Transition Design Platform for Tunable Magneto-Multifunctional Materials

Zhi-Yang Wei, En-Ke Liu, Yong Li, Gui-Zhou Xu, Xiao-Ming Zhang,, Guo-Dong Liu, Xue-Kui Xi, Hong-Wei Zhang, Wen-Hong Wang, Guang-Heng Wu, and, Xi-Xiang Zhang

PDF

TL;DR

This paper introduces a novel alloying approach that creates exceptionally wide Curie-temperature windows, enabling the design of tunable magneto-multifunctional materials with broad temperature and field control.

Contribution

It demonstrates the first realization of wide Curie-temperature windows using isostructural alloying in a single system for magnetostructural phase transitions.

Findings

01

Curie-temperature windows range from 40 to 450 K.

02

Wide CTWs enable versatile manipulation of magnetic properties.

03

The approach offers a new platform for designing multifunctional magnetic materials.

Abstract

A series of unprecedentedly wide Curie-temperature windows (CTWs) between 40 and 450 K are realized by employing the isostructural alloying principle for the strongly coupled magnetostructural phase transitions in a single host system. The CTWs provide a design platform for magneto-multifunctional multiferroic alloys that can be manipulated in a quite large temperature space in various scales and patterns, as well as by multiple physical fields.

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.