Browsing by Author "Yao, Dao-Xin"
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Item Exchange field enhanced upper critical field of the superconductivity in compressed antiferromagnetic EuTe2(Springer Nature, 2023) Sun, Hualei; Qiu, Liang; Han, Yifeng; Zhang, Yunwei; Wang, Weiliang; Huang, Chaoxin; Liu, Naitian; Huo, Mengwu; Li, Lisi; Liu, Hui; Liu, Zengjia; Cheng, Peng; Zhang, Hongxia; Wang, Hongliang; Hao, Lijie; Li, Man-Rong; Yao, Dao-Xin; Hou, Yusheng; Dai, Pengcheng; Wang, Meng; Rice Center for Quantum MaterialsUnderstanding the interplay between superconductivity and magnetism has been a longstanding challenge in condensed matter physics. Here we report high pressure studies on the C-type antiferromagnetic semiconductor EuTe2 up to 36.0 GPa. A structural transition from the I4/mcm to the C2/m space group is identified at ~16 GPa. Superconductivity is observed above ~5 GPa in both structures. In the low-pressure phase, magnetoresistance measurements reveal strong couplings between the local moments of Eu2+ and the conduction electrons of Te 5p orbits. The upper critical field of superconductivity is well above the Pauli limit. While EuTe2 becomes nonmagnetic in the high-pressure phase and the upper critical field drops below the Pauli limit. Our results demonstrate that the high upper critical field of EuTe2 in the low-pressure phase is due to the exchange field compensation effect of Eu2+ and the superconductivity in both structures may arise in the framework of the Bardeen-Cooper-Schrieffer theory.Item Gradual enhancement of stripe-type antiferromagnetism in the spin-ladder material BaFe2S3 under pressure(American Physical Society, 2018) Zheng, Liangliang; Frandsen, Benjamin A.; Wu, Changwei; Yi, Ming; Wu, Shan; Huang, Qingzhen; Bourret-Courchesne, Edith; Simutis, G.; Khasanov, R.; Yao, Dao-Xin; Wang, Meng; Birgeneau, Robert J.We report pressure-dependent neutron diffraction and muon spin relaxation/rotation measurements combined with first-principles calculations to investigate the structural, magnetic, and electronic properties of BaFe2S3 under pressure. The experimental results reveal a gradual enhancement of the stripe-type ordering temperature with increasing pressure up to 2.6 GPa and no observable change in the size of the ordered moment. The ab initio calculations suggest that the magnetism is highly sensitive to the Fe-S bond lengths and angles, clarifying discrepancies with previously published results. In contrast to our experimental observations, the calculations predict a monotonic reduction of the ordered moment with pressure. We suggest that the robustness of the stripe-type antiferromagnetism is due to strong electron correlations not fully considered in the calculations.Item Single-crystal growth and superconductivity in RbNi2Se2(American Physical Society, 2022) Liu, Hui; Hu, Xunwu; Guo, Hanjie; Teng, Xiao-Kun; Bu, Huanpeng; Luo, Zhihui; Li, Lisi; Liu, Zengjia; Huo, Mengwu; Liang, Feixiang; Sun, Hualei; Shen, Bing; Dai, Pengcheng; Birgeneau, Robert J.; Yao, Dao-Xin; Yi, Ming; Wang, MengWe report the synthesis and characterization of RbNi2Se2, an analog of the iron chalcogenide superconductor RbxFe2Se2, via transport, angle-resolved photoemission spectroscopy, and density functional theory calculations. A superconducting transition at Tc=1.20 K is identified. In the normal state, RbNi2Se2 shows paramagnetic and Fermi-liquid behaviors. A large Sommerfeld coefficient yields an effective electron mass of m∗≈6me. In the superconducting state, zero-field electronic specific-heat data Ces can be described by a two-gap BCS model, indicating that RbNi2Se2 is a possible multigap superconductor. Our density functional theory calculations and angle-resolved photoemission spectroscopy measurements demonstrate that RbNi2Se2 exhibits relatively weak correlations and multiband characteristics, consistent with the multigap superconductivity.