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1. Superconducting-transition-temperature dependence of superfluid density and conductivity in pressurized cuprate superconductors

Author

Zhao, Jinyu, Cai, Shu, Chen, Yiwen, Gu, Genda, Yan, Hongtao, Guo, Jing, Han, Jinyu, Wang, Pengyu, Zhou, Yazhou, Li, Yanchun, Li, Xiaodong, Ren, Zhian, Wu, Qi, Zhou, Xingjiang, Ding, Yang, Xiang, Tao, Mao, Ho-kwang, and Sun, Liling

Subjects
Condensed Matter - Superconductivity
Abstract

What factors fundamentally determine the value of superconducting transition temperature (Tc) in high temperature superconductors has been the subject of intense debate. Following the establishment of an empirical law known as Homes'law, there is a growing consensus in the community that the Tc value of the cuprate superconductors is closely linked to its superfluid density and conductivity. However, all the data supporting this empirical law have been obtained from the ambient-pressure superconductors. In this study, we present the first high-pressure results about the connection of these two quantities with Tc, through the studies on the Bi1.74Pb0.38Sr1.88CuO6+delta and Bi2Sr2CaCu2O8+delta, in which the value of their high-pressure resistivity (the reciprocal of conductivity) is achieved by adopting our newly established method, while the value of superfluid density is extracted using the Homes'law. We highlight that the Tc values are strongly linked the two joint response factors of magnetic field and electric field, i.e. superfluid density and conductivity, respectively, implying that the physics governing the determination of Tc is influenced by the intrinsic electromagnetic fields of the system., Comment: 11 pages, 3 figures

Published
2024

9. Microstructure and properties of nano-TiCp/GH3536 composite powders prepared by two-step method

Author

LIU Jiawei, SONG Meihui, LI Yan, ZHANG Yu, LI Yanchun, ZHANG Xiaochen, Andrey Samokhin, and YANG Huimin

Subjects
thermal plasma spheroidization, nano-ticp/gh3536, composite material, microstructure, performance, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Nano-TiCp/GH3536 composite powders were prepared by mechanical alloying (MA) and thermal plasma spheroidization (TPS) methods. The flowability, bulk density, particle size distribution, sphericity, and microstructure of the composite powders before and after MA-TPS treatment were studied by Hall flow meter,Scott volumeter, XRD, particle size analyzer, scanning electron microscope, and transmission electron microscope. The results show that the preformed powders obtained by MA-5 h treatment are irregular shape powders with non-uniform adhesion of nano-TiC particles on the surface of the GH3536 substrate. Compared with the original GH3536 powders, the number of equiaxed grains in the preformed powders increases and the crystal grains are refined, but the flowability and bulk density decrease.The nano-TiCp/GH3536 composite powders obtained by the second TPS treatment are spherical, and the original irregular nano-TiC particles are spheroidized and uniformly distributed inside the GH3536 substrate. After removing the submicron particles with an average particle size of 183.27 nm, the flowability, bulk density, and sphericity of TPS composite powders are further improved.The TEM images of submicron particles show that the nanoscale GH3536 microspheres are uniformly coated with a layer of TiC, the structure is similar to the core-shell, and spherical TiC particles are found in the powder. The average spherical degree, average particle size, flowability, and bulk density of the nano-TiCp/GH3536 composite powders prepared by the two-step method are 0.965,33.65 μm,17.1 s/50 g,and 4.184 g/cm3, respectively.

Published
2024
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11. Pressure-induced coevolution of transport properties and lattice stability in CaK(Fe1-xNix)4As4 (x= 0.04 and 0) superconductors with and without spin-vortex crystal state

Author

Wang, Pengyu, Liu, Chang, Yang, Run, Cai, Shu, Xie, Tao, Guo, Jing, Zhao, Jinyu, Han, Jinyu, Long, Sijin, Zhou, Yazhou, Li, Yanchun, Li, Xiaodong, Luo, Huiqian, Li, Shiliang, Wu, Qi, Qiu, Xianggang, Xiang, Tao, and Sun, Liling

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Here we report the first investigation on correlation between the transport properties and the corresponding stability of the lattice structure for CaK(Fe1-xNix)4As4 (x=0.04 and 0), a new type of putative topological superconductors, with and without a spin-vortex crystal (SVC) state in a wide pressure range involving superconducting to non-superconducting transition and the half- to full-collapse of tetragonal (h-cT and f-cT) phases, by the complementary measurements of high-pressure resistance, Hall coefficient and synchrotron X-ray diffraction. We identify the three critical pressures, P1 that is the turn-on critical pressure of the h-cT phase transition and it coincides with the critical pressure for the sign change of Hall coefficient from positive to negative, a manifestation of the Fermi surface reconstruction, P2 that is the turn-off pressures of the h-cT phase transition, and P3 that is the critical pressure of the f-cT phase transition. By comparing the high-pressure results measured from the two kinds of samples, we find a distinct left-shift of the P1 for the doped sample, at the pressure of which its SVC state is fully suppressed, however the P2 and the P3 remain the same as that of the undoped one. Our results not only provide a consistent understanding on the results reported before, but also demonstrate the importance of the Fe-As bonding in stabilizing the superconductivity of the iron pnictide superconductors through the pressure window.

Published
2023

12. Superconductivity in an Orbital-reoriented SnAs Square Lattice: a Case Study of Li0.6Sn2As2 and NaSnAs

Author

Wang, Junjie, Ying, Tianping, Deng, Jun, Pei, Cuiying, Yu, Tongxu, Chen, Xu, Wan, Yimin, Yang, Mingzhang, Dai, Weiyi, Yang, Dongliang, Li, Yanchun, Li, Shiyan, Iimura, Soshi, Du, Shixuan, Hosono, Hideo, Qi, Yanpeng, and Guo, Jian-gang

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Searching for functional square lattices in layered superconductor systems offers an explicit clue to modify the electron behavior and find exotic properties. The trigonal SnAs3 structural units in SnAs-based systems are relatively conformable to distortion, which provides the possibility to achieve structurally topological transformation and higher superconducting transition temperatures. In the present work, the functional As square lattice was realized and activated in Li0.6Sn2As2 and NaSnAs through a topotactic structural transformation of trigonal SnAs3 to square SnAs4 under pressure, resulting in a record-high Tc among all synthesized SnAs-based compounds. Meanwhile, the conductive channel transfers from the out-of-plane pz orbital to the in-plane px+py orbitals, facilitating electron hopping within the square 2D lattice and boosting the superconductivity. The reorientation of p-orbital following a directed local structure transformation provides an effective strategy to modify layered superconductors., Comment: 6 pages,4 figures, Accepted by Angew. Chem. Int. Ed

Published
2023

14. MD simulations and experiments of plasma proteins adsorption to the biodegradable magnesium alloys to facilitate cell response

Author

Wei, Xian, Menga, Jiajia, Ma, Sujie, Li, Yanchun, Qing, Hong, Peng, Xubiao, Zhang, Bo, and Zhao, Qing

Subjects
Physics - Biological Physics
Abstract

Once the magnesium alloy was implanted in the body, it was immediately covered with plasma proteins. The coated alloy surface promoted the adsorption and growth of osteoblasts. Herein, in vitro biological reactions of the ZK60 and AZ31 magnesium alloys were analyzed with and without plasma proteins incubation. The plasma proteins adsorbed on the magnesium alloy were characterized using mass spectrometry (MS). The MS results show that proteins related to bone cells such as fibrinogen, vitronectin, fibronectin, and prothrombin are prone to adsorbed on the surface of the alloys than other proteins. These proteins restrain the degradation of Mg alloys and promote the adsorption and growth of bone cells, which demonstrated by the immersion tests and biocompatibility assays. Furthermore, molecular dynamics simulations were used to analyze the details of the adsorptions of fibrinogen, fibronectin, and prothrombin on ZK60 and AZ31at atomic level. It is revealed that the type of residues adsorbed on the surface of the material has an important effect on protein adsorption., Comment: 25 pages, 9 figures, 4 tables

Published
2022

15. Insulator-metal-superconductor transition in medium-entropy van der Waals compound MEPSe3 (ME=Fe, Mn, Cd, and In) under high pressures

Author

Chen, Xu, Wang, Junjie, Ying, Tianping, Huang, Dajian, Gou, Huiyang, Zhang, Qinghua, Li, Yanchun, Hosono, Hideo, Guo, Jian-gang, and Chen, Xiaolong

Subjects
Condensed Matter - Superconductivity
Abstract

MPX3 (M=metals, X=S or Se) represents a large family of van der Waals (vdW) materials featuring with P-P dimers of ~2.3 {\AA} separation. Its electrical transport property and structure can hardly be tuned by the intentional chemical doping and ionic intercalation. Here, we employ an entropy-enhancement strategy to successfully obtain a series of medium-entropy compounds MEPSe3 (ME=Fe, Mn, Cd and In), in which the electrical and magnetic properties changed simultaneously. Lone-pair electrons of P emerge due to the dissociation of the dimers as evidenced by a 35% elongation in the P-P interatomic distance. The band gap widens from 0.1 eV to 0.7 eV by this dissociation. Under external physical pressure up to ~50 GPa, a giant collapse of up to 15% in the c-axis happens, which is in contrast to the in-plane shrinkage of their counterparts Fe/MnPSe3. It leads to the recombination of P3- with lone pair electrons into a P-P dimer and the smallest bulk modulus of 28 GPa in MPX3. The MEPSe3 transits from a spin-glass insulator to metal, and to superconductor, which is rarely observed in the MPX3. Our findings highlight the P-P dimer as an indicator to probe diverse electronic structure and the effectiveness of entropy-enhancement in materials science., Comment: 10 pages, 4 figures

Published
2022
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20. Superconductivity modulated by structural phase transitions in pressurized vanadium-based kagome metals

Author

Du, Feng, Li, Rui, Luo, Shuaishuai, Gong, Yu, Li, Yanchun, Jiang, Sheng, Ortiz, Brenden R., Liu, Yi, Xu, Xiaofeng, Wilson, Stephen D., Cao, Chao, Song, Yu, and Yuan, Huiqiu

Subjects
Condensed Matter - Superconductivity
Abstract

The interplay of superconductivity with electronic and structural instabilities on the kagome lattice provides a fertile ground for the emergence of unusual phenomena. The vanadium-based kagome metals $A$V$_3$Sb$_5$ ($A=$ K, Rb, Cs) exhibit superconductivity on an almost ideal kagome lattice, with the superconducting transition temperature $T_{\rm c}$ forming two domes upon pressure-tuning. The first dome arises from the competition between superconductivity and a charge-density-wave, whereas the origin for the second dome remains unclear. Herein, we show that the appearance of the second superconducting dome in KV$_3$Sb$_5$ and RbV$_3$Sb$_5$ is associated with transitions from hexagonal $P6$/$mmm$ to monoclinic $P2$/$m$ structures, evidenced by splitting of structural peaks from synchrotron powder X-ray diffraction experiments and imaginary phonon frequencies in first-principles calculations. In KV$_3$Sb$_5$, transition to an orthorhombic $Pmmm$ structure is further observed for pressure $p\gtrsim20$ GPa, and is correlated with the strong suppression of $T_{\rm c}$ in the second superconducting dome. Our findings indicate distortions of the crystal structure modulates superconductivity in $A$V$_3$Sb$_5$ under pressure, providing a platform to study the emergence of superconductivity in the presence of multiple structural instabilities.

Published
2021
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29. Quasi-uniaxial pressure induced superconductivity in stoichiometric compound UTe$_2$

Author

Yang, Chongli, Guo, Jing, Zhou, Yazhou, Cai, Shu, Sidorov, Vladimir A., Huang, Cheng, Long, Sijin, Shi, Youguo, Chen, Qiuyun, Tan, Shiyong, Gong, Yu, Li, Yanchun, Li, Xiaodong, Wu, Qi, Coleman, Piers, Xiang, Tao, and Sun, Liling

Subjects
Condensed Matter - Superconductivity
Abstract

The recent discovery of superconductivity in heavy Fermion compound UTe2, a candidate topological and triplet-paired superconductor, has aroused widespread interest. However, to date, there is no consensus on whether the stoichiometric sample of UTe2 is superconducting or not due to lack of reliable evidence to distinguish the difference between the nominal and real compositions of samples. Here, we are the first to clarify that the stoichiometric UT2 is non-superconducting at ambient pressure and under hydrostatic pressure up to 6 GPa, however we find that it can be compressed into superconductivity by application of quasi-uniaxial pressure. Measurements of resistivity, magnetoresistance and susceptibility reveal that the quasi-uniaxial pressure results in a suppression of the Kondo coherent state seen at ambient pressure, and then leads to a superconductivity initially emerged on the ab-plane at 1.5 GPa. At 4.8 GPa, the superconductivity is developed in three crystallographic directions. The superconducting state coexists with an exotic magnetic ordered state that develops just below the onset temperature of the superconducting transition. The discovery of the quasi-uniaxial-pressure-induced superconductivity with exotic magnetic state in the stoichiometric UTe2 not only provide new understandings on this compound, but also highlight the vital role of Te deficiency in developing the superconductivity at ambient pressures., Comment: 28 pages, 8 figures

Published
2021
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34. Observation of nearly identical superconducting transition temperatures in pressurized Weyl semimetal MIrTe4 (M=Nb and Ta)

Author

Long, Sijin, Cai, Shu, Schonemann, Rico, Rosa, Priscila F. S., Balicas, Luis, Huang, Cheng, Guo, Jing, Zhou, Yazhou, Han, Jinyu, Zhou, Liqin, Li, Yanchun, Li, Xiaodong, Wu, Qi, Weng, Hongming, Xiang, Tao, and Sun, Liling

Subjects
Condensed Matter - Superconductivity
Abstract

Here we report the observation of pressure-induced superconductivity in type-II Weyl semimetal (WSM) candidate NbIrTe4 and the evolution of its Hall coefficient (RH), magnetoresistance (MR), and lattice with increasing pressure to ~57 GPa. These results provide a significant opportunity to investigate the universal high-pressure behavior of ternary WSMs, including the sister compound TaIrTe4 that has been known through our previous studies. We find that the pressure-tuned evolution from the WSM to the superconducting (SC) state in these two compounds exhibit the same trend, i.e., a pressure-induced SC state emerges from the matrix of the non-superconducting WSM state at ~ 27 GPa, and then the WSM state and the SC state coexist up to 40 GPa. Above this pressure, an identical high-pressure behavior, characterized by almost the same value of RH and MR in its normal state and the same value of Tc in its SC state, appears in both compounds. Our results not only reveal a universal connection between the WSM state and SC state, but also demonstrate that NbIrTe4 and TaIrTe4 can make the same contribution to the normal and SC states that inhabit in the high-pressure phase, although these two compounds have dramatically different topological band structure at ambient pressure., Comment: 19 pages, 4 figures

Published
2021
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35. Superconductivity in Layered van der Waals Hydrogenated Germanene at High Pressure

Author

Xi, Yilian, Jing, Xiaoling, Xu, Zhongfei, Liu, Nana, Liu, Yani, Lin, Miao-Ling, Yang, Ming, Sun, Ying, Zhuang, Jincheng, Xu, Xun, Hao, Weichang, Li, Yanchun, Li, Xiaodong, Tan, Ping-Heng, Li, Quanjun, Liu, Bingbing, Dou, Shi Xue, and Du, Yi

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Structural and superconducting transitions of layered van der Waals (vdW) hydrogenated germanene (GeH) were observed under high-pressure compression and decompression processes. GeH possesses a superconducting transition at critical temperature (Tc) of 5.41 K at 8.39 GPa. A crystalline to amorphous transition occurs at 16.80 GPa while superconductivity remains. An abnormally increased Tc up to 6.1 K has been observed in the decompression process while the GeH remained amorphous. Thorough in-situ high-pressure synchrotron X-ray diffraction and in-situ high-pressure Raman spectroscopy with the density functional theory simulations suggest that the superconductivity of GeH should be attributed to the increased density of states at the Fermi level as well as the enhanced electron-phonon coupling effect under high pressure. The decompression-driven superconductivity enhancement arises from pressure-induced phonon softening related to an in-plane Ge-Ge phonon mode. As an amorphous metal hydride superconductor, GeH provides a platform to study amorphous hydride superconductivity in layered vdW materials., Comment: 22 Pages, 4 Figures

Published
2021

36. Evidences for the random singlet phase in a new honeycomb iridate SrIr$_2$O$_{6-\delta}$

Author

Song, Pengbo, Zhu, Kejia, Yang, Fan, Wei, Yuan, Zhang, Lu, Yang, Huaixin, Sheng, Xian-Lei, Qi, Yang, Ni, Jiamin, Li, Shiyan, Li, Yanchun, Cao, Guanghan, Meng, Zi Yang, Li, Wei, Shi, Youguo, and Li, Shiliang

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Strong spin-orbital-coupling magnetic systems with the honeycomb structure can provide bond-directional interactions which may result in Kitaev quantum spin liquids and exotic anyonic excitations. However, one of the key ingredients in real materials$-$disorders$-$has been much less studied in Kitaev systems. Here we synthesized a trigonal SrIr$_2$O$_{6-\delta}$ with $\delta \approx 0.25$, which consists of two-dimensional honeycomb Ir planes with edge-sharing IrO$_6$ octahedra. First-principles computation and experimental measurements suggest that the electronic system is gapped, and there should be no magnetic moment as the Ir$^{5+}$ ion has no unpaired electrons. However, significant magnetism has been observed in the material, and it can be attributed to disorders that are most likely from oxygen vacancies. No magnetic order is found down to 0.05 K, and the low-temperature magnetic properties exhibit power-law behaviors in magnetic susceptibility and zero-field specific heat, and a single-parameter scaling of the specific heat under magnetic fields. These results provide strong evidence for the existence of the random singlet phase in SrIr$_2$O$_{6-\delta}$, which offers a different member to the family of spin-orbital entangled iridates and Kitaev materials., Comment: 6 pages, 4 figures

Published
2021
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37. Universal quantum transition from superconducting to insulating states in pressurized Bi2Sr2CaCu2O8+{\delta} superconductors

Author

Zhou, Yazhou, Guo, Jing, Cai, Shu, Gu, Genda, Lin, Chengtian, Yan, Hongtao, Huang, Cheng, Yang, Chongli, Long, Sijin, Gong, Yu, Li, Yanchun, Li, Xiaodong, Wu, Qi, Hu, Jiangping, Zhou, Xingjiang, Xiang, Tao, and Sun, Liling

Subjects
Condensed Matter - Superconductivity
Abstract

Copper oxide superconductors have continually fascinated the communities of condensed matter physics and material sciences because they host the highest ambient-pressure superconducting transition temperature (Tc) and mysterious physics. Searching for the universal correlation between the superconducting state and its normal state or neighboring ground state is believed to be an effective way for finding clues to elucidate the underlying mechanism of the superconductivity. One of the common pictures for the copper oxide superconductors is that a well-behaved metallic phase will present after the superconductivity is entirely suppressed by chemical doping or application of the magnetic field. Here, we report a different observation of universal quantum transition from superconducting state to insulating-like state under pressure in the under-, optimally- and over-doped Bi2212 superconductors with two CuO2 planes in a unit cell. The same phenomenon has been also found in the Bi2201 superconductor with one CuO2 plane and the Bi2223 superconductor with three CuO2 planes in a unit cell. These results not only provide fresh information but also pose a new challenge for achieving a unified understanding on the underlying physics of the high-Tc superconductivity., Comment: 17 pages, 4 figures

Published
2020

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