Crystal structure and magnetic properties in semiconducting Eu 3−δ Zn x Sn y As 3 with Eu-Eu dimers

Magnetic structure and crystal symmetry, which primarily determine the time-reversal and inversion symmetry, may give rise to numerous exotic quantum phenomena in magnetic semiconductors and semimetals when arranged in different patterns. In this work, a new layered magnetic semiconductor, Eu 3−δ Zn...

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Veröffentlicht in:	Journal of applied physics 2022-07, Vol.132 (4)
Hauptverfasser:	Yang, Yongqi, Cheng, Guangming, Blawat, Joanna, Moseley, Duncan H., Wang, Haozhe, Devlin, Kasey P., Yu, Yu, Hermann, Raphaël P., Yao, Nan, Jin, Rongying, Xie, Weiwei
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creator	Yang, Yongqi Cheng, Guangming Blawat, Joanna Moseley, Duncan H. Wang, Haozhe Devlin, Kasey P. Yu, Yu Hermann, Raphaël P. Yao, Nan Jin, Rongying Xie, Weiwei
description	Magnetic structure and crystal symmetry, which primarily determine the time-reversal and inversion symmetry, may give rise to numerous exotic quantum phenomena in magnetic semiconductors and semimetals when arranged in different patterns. In this work, a new layered magnetic semiconductor, Eu 3−δ Zn x Sn y As 3 , was discovered and high-quality single crystals were grown using the Sn flux. According to structural characterization by x-ray diffraction and atomic-resolution scanning transmission electron microscopy, Eu 3−δ Zn x Sn y As 3 is found to crystallize in a hexagonal symmetry with the space group P6 3 / mmc (No. 194). After examining different specimens, we conclude that their stoichiometry is fixed at ∼Eu 2.6 Zn 0.65 Sn 0.85 As 3 , which meets the chemical charge balance. Eu 3−δ Zn x Sn y As 3 is composed of septuple (Eu 1−δ Sn y As 2 )-Eu-(Zn x As)-Eu sequences. The shortest Eu–Eu distance in the system is between two Eu layers separated by Zn x As along the c-axis. Magnetization measurement shows an antiferromagnetic ordering in Eu 3−δ Zn x Sn y As 3 at T N ∼ 12 K, where the magnetic easy-axis is along the c-axis, and Mössbauer spectroscopy observes magnetic hyperfine splitting on Eu and Sn at 6 K. Magnetic anisotropy is significantly different from the ones along the ab-plane in other layered Eu-based magnetic semimetals. Heat capacity measurements confirm the magnetic transition around 12 K. Electrical resistivity measurement indicates semiconductor behavior with a band gap of ∼0.86 eV. Various Eu-based magnetic semiconductors could provide a tunable platform to study potential topological and magnetic properties.
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Magnetic anisotropy is significantly different from the ones along the ab-plane in other layered Eu-based magnetic semimetals. Heat capacity measurements confirm the magnetic transition around 12 K. Electrical resistivity measurement indicates semiconductor behavior with a band gap of ∼0.86 eV. 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Magnetic anisotropy is significantly different from the ones along the ab-plane in other layered Eu-based magnetic semimetals. Heat capacity measurements confirm the magnetic transition around 12 K. Electrical resistivity measurement indicates semiconductor behavior with a band gap of ∼0.86 eV. Various Eu-based magnetic semiconductors could provide a tunable platform to study potential topological and magnetic properties.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><orcidid>https://orcid.org/0000000261385624</orcidid><orcidid>https://orcid.org/0000000240811495</orcidid><orcidid>https://orcid.org/000000034820833X</orcidid><orcidid>https://orcid.org/0000000158464324</orcidid><orcidid>https://orcid.org/0000000226337029</orcidid><orcidid>https://orcid.org/0000000255008195</orcidid><orcidid>https://orcid.org/0000000158521341</orcidid><orcidid>https://orcid.org/0000000209600630</orcidid></addata></record>
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title	Crystal structure and magnetic properties in semiconducting Eu 3−δ Zn x Sn y As 3 with Eu-Eu dimers
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