Your search keyword '"Yang, Wu-Zhang"' showing total 10 results

1. Experimental electronic phase diagram in a diamond-lattice antiferromagnetic system

Author

Ji, Liang-Wen, Yang, Wu-Zhang, Lu, Yi-Ming, Lu, Jia-Yi, Li, Jing, Liu, Yi, Ren, Zhi, and Cao, Guang-Han

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

We report Ni-doping effect on the magnetic and electronic properties of thiospinel Co$_{1-x}$Ni$_x$[Co$_{0.3}$Ir$_{1.7}$]S$_4$ (0 $\leq x \leq$ 1). The parent compound Co[Co$_{0.3}$Ir$_{1.7}$]S$_4$ exhibits antiferromagnetic order below $T_\mathrm{N} \sim$ 292 K within the $A$-site diamond sublattice, along with a narrow charge-transfer gap. Upon Ni doping, an insulator-to-metal crossover occurs at $x \sim$ 0.35, and the antiferromagnetism is gradually suppressed, with $T_\mathrm{N}$ decreasing to 23 K at $x =$ 0.7. In the metallic state, a spin-glass-like transition emerges at low temperatures. The antiferromagnetic transition is completely suppressed at $x_\mathrm{c} \sim$ 0.95, around which a non-Fermi-liquid behavior emerges, evident from the $T^\alpha$ temperature dependence with $\alpha \approx$ 1.2-1.3 in resistivity and divergent behavior of $C/T$ in specific heat at low temperatures. Meanwhile, the electronic specific heat coefficient $\gamma$ increases substantially, signifying an enhancement of the quasiparticle effective mass. The magnetic phase diagram has been established, in which an antiferromagnetic quantum critical point is avoided at $x_\mathrm{c}$. Conversely, the observed glass-like tail above the critical concentration aligns more closely with theoretical predictions for an extended region of quantum Griffiths phase in the presence of strong disorder., Comment: 8 pages, 5 figures

Published

2024

2. Inter-Cation Charge Transfer Mediated Antiferromagnetism in Co$_{1+x}$Ir$_{2-x}$S$_4$

Author

Ji, Liang-Wen, Wu, Si-Qi, Li, Bai-Zhuo, Yang, Wu-Zhang, Song, Shi-Jie, Liu, Yi, Li, Jing, Ren, Zhi, and Cao, Guang-Han

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

The antiferromagnetism in transition metal compounds is mostly mediated by the bridging anions through a so-called superexchange mechanism. However, in materials like normal spinels $AB_2X_4$ with local moments only at the $A$ site, such an anion-mediated superexchange needs to be modified. Here we report a new spinel compound Co$_{1+x}$Ir$_{2-x}$S$_4$ ($x$ = 0.3). The physical property measurements strongly suggest an antiferromagnetic-like transition at 292 K in the Co($A$) diamond sublattice. The first-principle calculations reveal that the nearest-neighbor Co($A$) spins align antiferromagnetically with an ordered magnetic moment of 1.67 $\mu_\mathrm{B}$, smaller than the expected $S = 3/2$ for Co$^{2+}$. In the antiferromagnetic state, there exists an inter-cation charge-transfer gap between the non-bonding Ir-$t_\mathrm{2g}$ orbitals at the valence band maximum and the Co-S antibonding molecular orbitals at the conduction band minimum. The small charge transfer energy significantly enhances the virtual hopping between these two states, facilitating a robust long-range superexchange interaction between two neighboring CoS$_4$ complexes, which accounts for the high N\'{e}el temperature in Co$_{1+x}$Ir$_{2-x}$S$_4$. This inter-cation charge transfer mediated magnetic interaction expands the traditional superexchange theory, which could be applicable in complex magnetic materials with multiple cations., Comment: 10 pages, 7 figures

Published

2024

3. Superconductivity in kagome metal ThRu3Si2

Author

Liu, Yi, Li, Jing, Yang, Wu-Zhang, Lu, Jia-Yi, Cao, Bo-Ya, Li, Hua-Xun, Chai, Wan-Li, Wu, Si-Qi, Li, Bai-Zhuo, Sun, Yun-Lei, Jiao, Wen-He, Cao, Wang, Xu, Xiao-Feng, Zhi, Ren, and Cao, Guang-Han

Subjects

Condensed Matter - Superconductivity

Abstract

We report the physical properties of ThRu$_3$Si$_2$ featured with distorted Ru kagome lattice. The combined experiments of resistivity, magnetization and specific heat reveal bulk superconductivity with $T_{\rm{c}}$ = 3.8 K. The specific heat jump and calculated electron-phonon coupling indicate a moderate coupled BCS superconductor. In comparison with LaRu$_3$Si$_2$, the calculated electronic structure in ThRu$_3$Si$_2$ shows an electron-doping effect with electron filling lifted from 100 meV below flat bands to 300 meV above it. This explains the lower superconducting transition temperature and weaker electron correlations observed in ThRu$_3$Si$_2$. Our work suggests the $T_{\rm{c}}$ and electronic correlations in kagome superconductor could have intimate connection with the flat bands., Comment: 7 pages, 5 figures

Published

2024

4. Superconductivity under pressure in a chromium-based kagome metal

Author

Liu, Yi, Liu, Zi-Yi, Bao, Jin-Ke, Yang, Peng-Tao, Ji, Liang-Wen, Wu, Si-Qi, Shen, Qin-Xin, Luo, Jun, Yang, Jie, Liu, Ji-Yong, Xu, Chen-Chao, Yang, Wu-Zhang, Chai, Wan-Li, Lu, Jia-Yi, Liu, Chang-Chao, Wang, Bo-Sen, Jiang, Hao, Tao, Qian, Ren, Zhi, Xu, Xiao-Feng, Cao, Chao, Xu, Zhu-An, Zhou, Rui, Cheng, Jin-Guang, and Cao, Guang-Han

Published

2024

5. Superconductivity and Charge-density-wave-like Transition in Th2Cu4As5

Author

Duan, Qing-Chen, Liu, Shao-Hua, Li, Bai-Zhuo, Meng, Jiao-Jiao, Yang, Wu-Zhang, Liu, Yi, Lin, Yi-Qiang, Wu, Si-Qi, Lu, Jia-Yi, Bao, Jin-Ke, Xiao, Yu-Sen, Zhao, Xin-Yu, Mei, Yu-Xue, Sun, Yu-Ping, Yu, Dan, Tan, Shu-Gang, Jing, Qiang, Zhong, Rui-Dan, Chen, Yong-Liang, Zhao, Yong, Ren, Zhi, Wang, Cao, and Cao, Guang-Han

Subjects

Condensed Matter - Superconductivity

Abstract

We report the synthesis, crystal structure, and physical properties of a novel ternary compound, Th$_2$Cu$_4$As$_5$. The material crystallizes in a tetragonal structure with lattice parameters $a=4.0716(1)$ {\AA} and $c=24.8131(4)$ {\AA}. Its structure can be described as an alternating stacking of fluorite-type Th$_2$As$_2$ layers with antifluorite-type double-layered Cu$_4$As$_3$ slabs. The measurement of electrical resistivity, magnetic susceptibility and specific heat reveals that Th$_2$Cu$_4$As$_5$ undergoes bulk superconducting transition at 4.2 K. Moreover, all these physical quantities exhibit anomalies at 48 K, where the Hall coefficient change the sign. These findings suggest a charge-density-wave-like (CDW) transition, making Th$_2$Cu$_4$As$_5$ a rare example for studying the interplay between CDW and superconductivity., Comment: 11 pages, 6 figures, and 1 table

Published

2023

6. Superconductivity emerging from density-wave-like order in a correlated kagome metal

Author

Liu, Yi, Liu, Zi-Yi, Bao, Jin-Ke, Yang, Peng-Tao, Ji, Liang-Wen, Wu, Si-Qi, Shen, Qin-Xin, Luo, Jun, Yang, Jie, Liu, Ji-Yong, Xu, Chen-Chao, Yang, Wu-Zhang, Chai, Wan-Li, Lu, Jia-Yi, Liu, Chang-Chao, Wang, Bo-Sen, Jiang, Hao, Tao, Qian, Ren, Zhi, Xu, Xiao-Feng, Cao, Chao, Xu, Zhu-An, Zhou, Rui, Cheng, Jin-Guang, and Cao, Guang-Han

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

Unconventional superconductivity (USC) in a highly correlated kagome system has been theoretically proposed for years, yet the experimental realization is hard to achieve. The recently discovered vanadium-based kagome materials, which exhibit both superconductivity and charge density wave (CDW) orders, are nonmagnetic and weakly correlated, thus unlikely host USC as theories proposed. Here we report the discovery of a chromium-based kagome metal, CsCr$_3$Sb$_5$, which is contrastingly characterised by strong electron correlations, frustrated magnetism, and characteristic flat bands close to the Fermi level. Under ambient pressure, it undergoes a concurrent structural and magnetic phase transition at 55 K, accompanying with a stripe-like $4a_0$ structural modulation. At high pressure, the phase transition evolves into two transitions, probably associated with CDW and antiferromagnetic spin-density-wave orderings, respectively. These density-wave (DW)-like orders are gradually suppressed with pressure and, remarkably, a superconducting dome emerges at 3.65-8.0 GPa. The maximum of the superconducting transition temperature, $T_\mathrm{c}^{\mathrm{max}}=$ 6.4 K, appears when the DW-like orders are completely suppressed at 4.2 GPa, and the normal state exhibits a non-Fermi-liquid behaviour, reminiscent of USC and quantum criticality in iron-based superconductors. Our work offers an unprecedented platform for investigating possible USC in a correlated kagome system., Comment: 32 pages, 14 figures

Published

2023

7. Superconductivity in kagome metal ThRu3Si2

Author

Liu, Yi, primary, Li, Jing, additional, Yang, Wu-Zhang, additional, Lu, Jia-Yi, additional, Cao, Bo-Ya, additional, Li, Hua-Xun, additional, Chai, Wan-Li, additional, Wu, Si-Qi, additional, Li, Bai-Zhuo, additional, Sun, Yun-Lei, additional, Jiao, Wen-He, additional, Cao, Wang, additional, Xu, Xiao-Feng, additional, Zhi, Ren, additional, and Cao, Guang-Han, additional

Published

2024

8. Magnetism and Transport Properties of EuCdBi2 with Bi Square Net

Author

Liu, Yi, primary, Li, Jing, additional, Song, Shi-Jie, additional, Yang, Wu-Zhang, additional, Bao, Jin-Ke, additional, Jiao, Wen-He, additional, Xu, Xiao-Feng, additional, Ren, Zhi, additional, and Cao, Guang-Han, additional

Published

2023

9. Magnetism and Transport Properties of EuCdBi 2 with Bi Square Net.

Author

Liu, Yi, Li, Jing, Song, Shi-Jie, Yang, Wu-Zhang, Bao, Jin-Ke, Jiao, Wen-He, Xu, Xiao-Feng, Ren, Zhi, and Cao, Guang-Han

Subjects

CARRIER density, MAGNETISM, ELECTRON mobility, SPECIFIC heat, SQUARE, MAGNETIZATION measurement

Abstract

We report a possible coexistence of nontrivial topology and antiferromagnetism in the newly discovered compounds EuCdBi 2 , with magnetic Eu layer locating above and below Bi square net. The X-ray diffraction on single crystals and powder indicats that this 112-type material crystalizes in space group of I 4 / m m m , the same as SrMnBi 2 and EuMnBi 2 . Our combined measurements of magnetization, electrical transport and specific heat consistently reveal antiferromagnetic (AFM) transition of Eu 2 + moments at T N = 20 K. The Eu moments are not saturated under a field of 7 T at 1.8 K. The anisotropic susceptibility suggests the Eu moments lie in the a b plane, and a metamagnetic (MM) transition is observed near 1 T below T N . Large positive magnetoresistance (MR) present for both H   ‖   a b and H   ‖   c , which are considered to contain part contributions from Dirac bands. Hall measurements show the electron-hole compensation effect is prominent above 100 K, with a crossover of Hall resistance from negative to positive values at ∼150 K. The fitted mobility of electrons is as high as 3250 cm 2 V − 1 S − 1 at 1.8 K. Interestingly, the rapid increase of carrier density and suppression of mobility appear at around T N , indicating non-negligible interaction between Eu moments and electron/hole bands. EuCdBi 2 may provide a new platform to investigate the interplay of topological bands and antiferromagnetic order. [ABSTRACT FROM AUTHOR]

Published

2023

10. Structure and transport properties of the quasi-one-dimensional telluride Ta1.2Os0.8Te4

Author

Jiao, Wen-He, primary, Xiao, Shaozhu, additional, Zhang, Shi-Ju, additional, Yang, Wu-Zhang, additional, Xie, Xiao-Meng, additional, Liu, Yi, additional, Liu, Ji-Yong, additional, Song, Shi-Jie, additional, Liu, Wei, additional, Ren, Zhi, additional, Cao, Guang-Han, additional, Xu, Xiaofeng, additional, and He, Shaolong, additional

Published

2022