Structure-Spin-Transport Anomaly in Quasi-One-Dimensional Ba9Fe3Te15 under High PressureSupported by the National Natural Science Foundation of China (Grant Nos. U1930401, 11974410, 11820101003, 11921004 and 11534016), and the National Key R&D Program of China (Grant Nos. 2018YFA0305703, 2018YFA0305700 and 2017YFA0302900)

Recently, a series of novel compounds Ba3MX5 (M = Fe, Ti, V; X = Se, Te) with hexagonal crystal structures composed of quasi-1-dimensional (1D) magnetic chains has been synthesized by our research team using high-pressure and high-temperature methods. The initial hexagonal phases persist to the maxi...

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Published in:Chinese physics letters 2020-08, Vol.37 (8)
Main Authors: Zhang, Jun, Jin, Mei-Ling, Li, Xiang, Wang, Xian-Cheng, Zhao, Jian-Fa, Liu, Ying, Duan, Lei, Li, Wen-Min, Cao, Li-Peng, Chen, Bi-Juan, Wang, Li-Juan, Sun, Fei, Wang, Yong-Gang, Yang, Liu-Xiang, Xiao, Yu-Ming, Deng, Zheng, Feng, Shao-Min, Jin, Chang-Qing, Zhu, Jin-Long
Format: Article
Language:English
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Summary:Recently, a series of novel compounds Ba3MX5 (M = Fe, Ti, V; X = Se, Te) with hexagonal crystal structures composed of quasi-1-dimensional (1D) magnetic chains has been synthesized by our research team using high-pressure and high-temperature methods. The initial hexagonal phases persist to the maximum achievable pressure, while spin configurations and magnetic interactions may change dramatically as a result of considerable reductions in interchain separations upon pressurization. These compounds therefore offer unique possibilities for studying the evolution of intrinsic electronic structures in quasi-1D magnetic systems. Here we present a systematic investigation of Ba9Fe3Te15, in which the interchain separations between trimerized 1D chains (∼ 10.2 Å) can be effectively modulated by external high pressure. The crystal structure especially along the 1D chains exhibits an abnormal expansion at ∼5 GPa, which accompanies trimerization entangled anomalous mixed-high-low spin transition. An insulator-metal transition has been observed under high pressure as a result of charge-transfer gap closing. Pressure-induced superconductivity emerges at 26 GPa, where the charge-transfer gap fully closes, 3D electronic configuration forms and local spin fully collapses.
ISSN:0256-307X
DOI:10.1088/0256-307X/37/8/087106