Author:
Zhang Jun,Jia Yating,Wang Xiancheng,Li Zhi,Duan Lei,Li Wenmin,Zhao Jianfa,Cao Lipeng,Dai Guangyang,Deng Zheng,Zhang Sijia,Feng Shaomin,Yu Runze,Liu Qingqing,Hu Jiangping,Zhu Jinlong,Jin Changqing
Abstract
AbstractWe report systematic studies of a new quasi-one-dimensional (quasi-1D) compound, Ba3TiTe5, and the high-pressure induced superconductivity therein. Ba3TiTe5 was synthesized at high pressure and high temperature. It crystallizes into a hexagonal structure (P63/mcm), which consists of infinite face-sharing octahedral TiTe6 chains and Te chains along the c axis, exhibiting a strong 1D characteristic structure. The first-principles calculations demonstrate that Ba3TiTe5 is a well-defined 1D conductor; thus, it can be considered a starting point to explore the exotic physics induced by pressure by enhancing the interchain hopping to move the 1D conductor to a high-dimensional metal. For Ba3TiTe5, high-pressure techniques were employed to study the emerging physics dependent on interchain hopping, such as the Umklapp scattering effect, spin/charge density wave (SDW/CDW), superconductivity and non-Fermi liquid behavior. Finally, a complete phase diagram was plotted. The superconductivity emerges at 8.8 GPa, near which the Umklapp gap is mostly suppressed. Tc is enhanced and reaches a maximum of ~6 K at ~36.7 GPa, where the SDW/CDW is completely suppressed, and a non-Fermi liquid behavior appears. Our results suggest that the appearance of superconductivity is associated with the fluctuation due to the suppression of the Umklapp gap and that the enhancement of the Tc is related to the fluctuation of the SDW/CDW.
Funder
National Science Foundation of China | National Natural Science Foundation of China-Yunnan Joint Fund
Ministry of Science and Technology of the People's Republic of China
Department of Science and Technology, Ministry of Science and Technology
Publisher
Springer Science and Business Media LLC
Subject
Condensed Matter Physics,General Materials Science,Modelling and Simulation,Condensed Matter Physics,General Materials Science,Modelling and Simulation
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