@inproceedings{620e0985d7d3451db4f7f09d7be54fa4,
title = "Anisotropic curie temperature materials (plenary)",
abstract = "Existence of anisotropic Curie temperature materials [E. R. Callen, Phys. Rev. 124, 1373 (1961); J. Appl. Phys. 32 S221 (1961)] is a longstanding prediction - materials that become paramagnetic at a lower temperature along certain crystal directions while remaining magnetically ordered in other directions up to a higher temperature. Validating Callen's theory, we show that all directions within the basal plane of monoclinic Fe7S8 (pyrrhotite) single crystal remain ordered up to 603 K while the c-axis becomes paramagnetic at 225 K. Results prompt a re-evaluation of existing magnetic materials with a focus on magnetic characteristics along different crystal orientations above instead of below the ordering temperatures. Theoretical guidelines for identifying new materials with large anisotropy of Curie temperature are also given, and analysis protocol to characterize them in a self-consistent manner is discussed. Materials with such a large directional dependence of Curie temperature open the possibility for uniquely new devices and phenomena, including energy storage and spintronics devices.",
keywords = "Ac-calorimetry, Anisotropic magnetization, Arrott plots, Curie temperature",
author = "Chopra, \{Harsh Deep\} and Armstrong, \{Jason N.\} and Hua, \{Susan Z.\}",
year = "2013",
doi = "10.1002/9781118658352.ch20",
language = "English",
isbn = "9781118605714",
series = "TMS Annual Meeting",
publisher = "Minerals, Metals and Materials Society",
pages = "177--188",
booktitle = "Energy Technology 2013",
address = "United States",
note = "Energy Technology 2013: Carbon Dioxide Management and Other Technologies - TMS 2013 Annual Meeting and Exhibition ; Conference date: 03-03-2013 Through 07-03-2013",
}