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Magnetic entropy change associated with critical behavior in the precursor region of single crystalline FeGe

Submit Time: 2017-11-27
Author: 张蕾 中科院强磁场中心 ;
Institute: 1.中科院强磁场中心;

Abstracts

Cubic helimagnet FeGe has emerged as a class of skyrmion materials near room temperature that may impact future information technology. Experimentally identifying the detailed properties of skyrmion materials enables their practical application acceleratedly. Here we study the magnetic entropy change (MEC) of single crystalline FeGe in its precursor region and clarify its close relation to the critical exponents of a second-order phase transition in this area. The maximum MEC is found to be 2.86 J/kg.K for 7.0 T magnetic field change smaller than that of common magnetocaloric materials indicating the multiplicity and complexity of the magnetic structure phases in the precursor region. This result also implies that the competition among the multimagnetic phases can partly counteract the magnetic field driven force and establishes a stable balance. Based on the obtained MEC and the critical exponents, the exact Curie temperature of single crystalline FeGe under zero magnetic field is confirmed to be 279.1 K, higher than previously reported 278.2 K. This finding pave the way for reconstruction of FeGe phase diagram in the precursor region.
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From: 张蕾
DOI:10.12074/201711.02791
Recommended references: 张蕾.(2017).Magnetic entropy change associated with critical behavior in the precursor region of single crystalline FeGe.[ChinaXiv:201711.02791] (Click&Copy)
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[V1] 2017-11-27 17:31:38 chinaXiv:201711.02791V1 Download
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