科研成果 >
2022年成果
[1] Visualizing Emergent Magnetic Flux of Antiskyrmions in Mn 1.4 PtSn Magnet Zhidong He, Dongsheng Song,* Weiwei Wang,* Ning Wang, Binghui Ge,Shouguo Wang, Mingliang Tian, and Haifeng Du*.
Adv. Funct. Mater. 32, 2112661,( 2022)
[2] Combined Magnetic Imaging and Anisotropic Magnetoresistance Detection of Dipolar Skyrmions. Jin Tang,Jialiang Jiang,Ning Wang,Yaodong Wu,Yihao Wang,Junbo Li,Yona Soh,Yimin Xiong,Lingyao Kong,Shouguo Wang,Mingliang Tian,Haifeng Du.
Advanced Functional Materials. 2207770(2022)
[3] Electrical manipulation of skyrmions in a chiral magnet Weiwei Wang, Dongsheng Song , Wensen Wei, Pengfei Nan, Shilei Zhang, Binghui Ge ,Mingliang Tian, Jiadong Zang & Haifeng Du.
Nature Communications 13,1593 (2022)
[4] Novel π/2-Periodic Planar Hall Effect Due to Orbital Magnetic Moments in MnBi2Te4. Min Wu, Daifeng Tu, Yong Nie, Shaopeng Miao, Wenshuai Gao, Yuyan Han, Xiangde Zhu, Jianhui Zhou,* Wei Ning,* and Mingliang Tian.
Nano Letters, 1530-6984,(2022)
[5] Topological charge-entropy scaling in kagome Chern magnet. Xitong Xu, Jia-Xin Yin, Wenlong Ma, Hung-Ju Tien, Xiao-Bin Qiang, P. V. Sreenivasa Reddy, Huibin Zhou, Jie Shen, Hai-Zhou Lu, Tay-Rong Chang, Zhe Qu & Shuang Jia.
Nature Communications. 13(1), 1197, (2022)
[6] Electric Control of Exchange Bias Effect in FePS3−Fe5GeTe2 van der Waals Heterostructures. Sultan Albarakati, Wen-Qiang Xie, Cheng Tan, Guolin Zheng,* Meri Algarni, Junbo Li, James Partridge, Michelle J. S. Spencer, Lawrence Farrar, Yimin Xiong, Mingliang Tian, Xiaolin Wang, Yu-Jun Zhao,* and Lan Wang*.
Nano Letters. 22(15), 6166–6172(2022)
[7] Current-Induced Magnetic Skyrmions with Controllable Polarities in the Helical Phase. Xuebing Zhao, Jin Tang, Ke PeiKe Pei, Weiwei Wang, Shi-Zeng Lin, Haifeng Du, Mingliang Tian, and Renchao Che.
NANO Letters. 22 (22), 8793-8800 (2022)
[8] Progress and challenges in magnetic skyrmionics Haifeng Du and Xiangrong Wang Chin.
Phys. B 31, 087507 (2022)
[9] Spin freezing in the van der Waals material Mn2Ga2S5 Jie Shen Xitong Xu, Miao He, Yonglai Liu, Yuyan Han and Zhe Qu.
Chinese Physics B 31(6), 067105, (2022)
[10] Cascade of pressure-driven phase transitions in the topological nodal-line superconductor PbTaSe2. Tahir Murtaza, Haiyang Yang, Jiajia Feng, Yi Shen, Yongheng Ge, Yi Liu, Chunqiang Xu, Wenhe Jiao, Yaokang Lv, Christopher J. Ridley, Craig L. Bull, Pabitra K. Biswas, Raman Sankar, Wei Zhou, Bin Qian, Xuefan Jiang, Zhenjie Feng, Yonghui Zhou, Ziming Zhu, Zhaorong Yang, and Xiaofeng Xu.
Physical Review B, 106, L060501, (2022)
[11] Pressure engineering of colossal magnetoresistance in the ferrimagneticnodal-line semiconductor Mn3Si2Te6. Jing Wang, Shuyang Wang, Xinyi He, Ying Zhou, Chao An, Min Zhang, Yonghui Zhou,Yuyan Han, Xuliang Chen, Jian Zhou, and Zhaorong Yang.
Physical Review B, 106, 045106, (2022)
[12] Pressure evolution of electronic and structural properties in transition metal dichalcogenide 1T-Co1.06Te2. Ying Zhou, Chao An, Xuliang Chen, Yonghui Zhou, Yong Fang,Zhitao Zhang,and Zhaorong Yang.
JOURNAL OF PHYSICS-CONDENSED MATTER, 34, (2022)
[13] Observation of room-temperature amplitude mode in quasi-one-dimensional chargedensity-wave material CuTe. Shuyang Wang, Xuliang Chen, Chao An, Ying Zhou, Min Zhang,Yonghui Zhou, Yuyan Han, and Zhaorong Yang.
APPLIED PHYSICS LETTERS. 120, (2022)
[14] Pressure induced superconductivity in nonlinear optical crystal ZnGeP2 and its capture at ambient pressure. Yifang Yuan, Yonghui Zhou, Zheng Chen, Chunhua Chen, Xuliang Chen, Jing Wang,Ying Zhou, Chao An, Min Zhang, Xiangde Zhu, Ranran Zhang, Lili Zhang,Zhaorong Yang.
Materials Today Physics. 25, (2022)
[15]Pressure engineering of intertwined phase transitions in lanthanide monopnictide NdSb. Ying Zhou , Xuliang Chen, Yonghui Zhou, Jihai Yu , Xiangde Zhu, Chao An , Changyong Park, Xiangang Wan, Xiaoping Yang, and Zhaorong Yang.
SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY. 65(8) (2022)
[16]Superconductivity in Mo–P compounds under pressure and in double-Weyl semimetal Hex-MoP2. Xin-Hai Tu, Tao Bo, Peng-Fei Liu, Wen Yin, Ning Hao, Bao-Tian Wang.
Physical Chemistry Chemical Physics. 24, 7893-7900, (2022)
[17]Phase-Manipulation-Induced Majorana Mode and Braiding Realization in Iron-Based Superconductor Fe(Te,Se). Rui Song, Ping Zhang, and Ning Hao.
PHYSICAL REVIEW LETTERS. 128, 016402 (2022).
[18]Quasi-Two-Dimensional Anomalous Hall Mott Insulator of Topologically Engineered Jeff = 1=2 Electrons. Junyi Yang, Hidemaro Suwa ,Derek Meyers, Han Zhang, Lukas Horak ,Zhaosheng Wang, Gilberto Fabbris , Yongseong Choi ,Jenia Karapetrova,Jong-Woo Kim ,Daniel Haskel,Philip J. Ryan , M. P. M. Dean ,Lin Hao, and Jian Liu.
PHYSICAL REVIEW X. 12, 031015, (2022)
[19] Broadband photoresponse arising from photo-bolometric effect in quasi-one-dimensional Ta2Ni3Se8. W. L. Zhen, W. T. Miao, W. L. Zhu, C. J. Zhang*, and W K. Zhu.
Journal of Physics: Condensed Matter. 34, 255303 (2022)
[20] Planar Hall effect and large anisotropic magnetoresistance in a topological superconductor candidate Cu0.05PdTe2. Guolin Feng, Hui Huang, Zhiqiang Wu, Yuyan Han, and Changjin Zhang.
AIP Advances. 12, 035008 (2022)
[21] Interface effects of Schottky devices built from MoS2 and high work function metals. Yaodong Li, Weili Zhen, Shirui Weng, Huijie Hu, Rui Niu, Zhilai Yue, Feng Xu, Wenka Zhu*, and Changjin Zhang.
Journal of Physics: Condensed Matter. 34, 165001 (2022)
[22] Enhanced magnetism and persistent insulating state in Mn doped Sr2IrO4. Yaodong Li, Rui Niu, Feng Xu, Weili Zhen, Hui Huang, Jingrong Wang, Wenka Zhu,* and Changjin Zhang.
Journal of Physics: Condensed Matter. 34, 235602 (2022)
[23] Enhanced optoelectronic performance and photogating effect in quasi-one-dimensional BiSeI wires. H. J. Hu, W. L. Zhen, S. R. Weng, Y. D. Li, R. Niu, Z. L. Yue, F. Xu, L. Pi,* C. J. Zhang,* and W. K. Zhu.
Applied Physics Letters. 120, 201101 (2022)
[4] Ultrasensitive, ultrafast and gate-tunable two-dimensional photodetectors in ternary rhombohedral ZnIn2S4 for optical neural networks. Weili Zhen, Xi Zhou, Shirui Weng, Wenka Zhu*, and C. J. Zhang*.
ACS Applied Materials & Interfaces. 14, 12571 (2022)
[25] Temperature- and field angular-dependent helical spin period characterized by magnetic dynamics in a chiral helimagnet MnNb3S6. Liyuan Li, Kaiyuan Zhou, Haotian Li, Yaoyu Gu, Qingwei Fu, Lina Chen*, Lei Zhang*, Y. W. Du, and R. H. Liu*.
SCIENCE CHINA Physics, Mechanics & Astronomy. (2022)
[26] Tricritical-point phase diagram in PrCu9Sn4. Fanying Meng, Min Ge∗, Wensen We, Azizur Rahman, Wei Liu, Aina Wang, Jun Zhao, Jiyu Fan, Chunlan Ma, Li Pi, Lei Zhang*, and Yuheng Zhang.
Journal of Physics: Condensed Matter. 34 155803 (2022)
[27] Field-induced tricritical phenomenon and magnetic structures in magnetic Weyl semimetal candidate NdAlGe. Jun Zhao, Wei Liu, Azizur Rahman, Fanying Meng, Langsheng Ling, Chuanying Xi, Wei Tong, Yuming Bai, Zhaoming Tian*, Yunbo Zhong, Ying Hu, Li Pi, Lei Zhang*, and Yuheng Zhang.
New Journal of Physics. 24, 013010 (2022)
[28] RKKY-type in-plane ferromagnetism in layered Mn1/4NbS2 single crystals. Azizur Rahman,# Majeed Ur Rehman,# Muhammad Yousaf, Maryam Kiani, Hongze Zhao, Jianlin Wang, Yalin Lu, Keqing Ruan, Rucheng Dai, Zhongping Wang, Wei Liu,* Lei Zhang,* and Zengming Zhang*.
Physical Review B. 105, 214410 (2022)
[29] Critical behavior and strongly anisotropic interactions in PrMn2Ge2. Meng Song, Jun Zhao, Caixing Liu, Miao He, Yihao Wang, Yuyan Han, Langsheng Ling, Liang Cao, Lei Zhang,* Zhe Qu,* and Yimin Xiong*.
Applied Physics Letters. 120, 092402 (2022)
[30] Microwave response of chiral magnetic soliton in Yb(Ni1−xCux)3Al9. Fanying Meng, Wei Liu,∗ Azizur Rahman, Jun Zhao, Aina Wang, Wei Tong, Jiyu Fan, Chunlan Ma, Min Ge, Li Pi, Haifeng Du, Lei Zhang,* and Yuheng Zhang.
Applied Physics Letters. 120, 212403 (2022)
[31] Magnetotransport due to conductivity fluctuations in non-magnetic ZrTe2 nanoplates. Jie Wang, Yihao Wang, Min Wu, Junbo Li, Shaopeng Miao, Qingyi Hou, Yun Li, Jianhui Zhou, Xiangde Zhu, Yimin Xiong, Wei Ning, and Mingliang Tian.
Appl. Phys. Lett. 120, 163103 (2022)
[32] Tunable artificial topological Hall effects in van der Waals heterointerfaces. Meri Algarni, Cheng Tan, Guolin Zheng, Sultan Albarakati, Xiangde Zhu, James Partridge, Yanglin Zhu, Lawrence Farrar, Mingliang Tian, Jianhui Zhou, Xiaolin Wang, Zhiqiang Mao, and Lan Wang.
Physical Review B. 105, 155407 (2022)
[33] Intrinsic V vacancy and large magnetoresistance in V1-δ Sb2 single crystal. Yong Zhang, Xinliang Huang, Jinglei Zhang, Wenshuai Gao, Xiangde Zhu, and Li Pi.
Chinese Physical B . 31, 037102 (2022)
[34] Weak localization in disordered spin-1 chiral fermions. Shao-Peng Miao, Dai-Feng Tu, Jian-Hui Zhou.
Chinese Physics B.(2022)
[35] Pressure-induced superconductivity in quasi-one-dimensional semimetal Ta2PdSe6. Haiyang Yang, Yonghui Zhou, Liangyu Li, Zheng Chen, ZhuyiZhang, Shuyang Wang, Jing Wang, Xuliang Chen, Chao An, Ying Zhou, Min Zhang, Ranran Zhang, Xiangde Zhu, Lili Zhang, Xiaoping Yang, and Zhaorong Yang.
Physical Review Materials.(2022)
[36] Magnetic Field-Induced Synthesis of One-Dimensional Nickel Nanowires for Enhanced Microwave Absorption. Yong Qian, Xiangfu Meng, Hongji Liu, Xingyu Wang, Yefeng Lin, Xinyi Shi, Zhigao Sheng, Hui Wang.
Advanced Materials Interfaces. 2201604,(2022)
[37]Ferromagnetic impurity induced Majorana zero mode in iron-based superconductors. Rui Song, Ping Zhang, Xian-Tu He, and Ning Hao.
PHYSICAL REVIEW B. 106(18),L180504,(2022)
[38] Pressure-induced superconductivity in the kagome single-crystal Pd3P2S8. Ying Zhou, Xinyi He, Shuyang Wang, Jing Wang, Xuliang Chen, Yonghui Zhou, Chao An, Min Zhang, Zhitao Zhang, Zhaorong Yang.
Physical Review B. 106(10), 104512 (2022)
[39] Multiple metamagnetic transitions induced by high magnetic field in DyBi. Jun Zhao#, Azizur Rahman#, Wei Liu, Fanying Meng, Langsheng Ling, Yuyan Han, Chuanying Xi, Wei Tong, Longmeng Xu, Zhaoming Tian,* Li Pi, Lei Zhang,* and Yuheng Zhang.
Physical Review B. 106, 224412 (2022)
[40] 多铁材料MnSb2O6中自旋涨落的ESR研究. 王哲, 许劼敏, 王文君, 李何轩, 邹优鸣, 于璐, 屈哲
物理学报 71(1), 017501,(2022)
