2024

[59] Orbital Current-Induced Sign Reversal of Fieldlike Spin-Orbit Torque in Pt/Ni/Py with an Ultrathin Ni Spacer, Zishuang Li, Wenqiang Wang, KaiyuanZhou, Xiang Zhan, Tiejun Zhou* and Ronghua Liu*, Phys. Rev. B (under review 2024).

[58] Physical reservoir computing and deep neural networks using artificial and natural non-collinear spin textures, Haotian Li, Liyuan Li, Rongxin Xiang, Wei Liu, Chunjie Yan, Zui Tao, Lei Zhang, and Ronghua Liu*, Phys. Rev. Applied (under review 2024).

[57] Quantifying spin-torque efficiency and magnetoresistance coefficient by microwave photoresistance in spin-torque ferromagnetic resonance, Xiang Zhan, Haotian Duan, Wenqiang Wang, Chunjie Yan, Lina Chen, Haozhe Wang, Zishuang Li, and Ronghua Liu*, Phys. Rev. B (under review 2024).

[56] Significant enhancement of spin-orbit torque efficiency by optimizing the interlayer thickness in [Pt/Ru]n/Pt multilayers, Xiang Zhan, Haozhe Wang, Zishuang Li and Ronghua Liu*,  Appl. Phys. Lett. 124, 072406 (2024).

2023

[55] Efficient Spin-Orbit Torque switching in perpendicularly magnetized CoFeB facilitated by Fe₂O₃ underlayer，Zhuoyi Li, Xianyang Lu*, Zhe Zhang, Wenjia Li, Taotao Li, Jian Zhou, Yu Yan, Ruobai Liu, Jun Du, Ronghua Liu, Xinran Wang, Yao Li, Liang He, Jing Wu, Rong Zhang, and Yongbing Xu*, Appl. Phys. Lett. 123, 042404(2023).

[54] Topological Hall-like magnetoresistance humps in anomalous Hall loops caused by planar Hall effect, Chunjie Yan, Zui Tao, Zhenyu Gao, Zishuang Li, Xiao Xiao, Haozhe Wang, Lina Chen*, and Ronghua Liu*, Phys. Rev. B 108, 094414(2023).

[53] Observation and Characterization of Multiple Resonance Modes in a Chiral Helimagnet CrNb3S6, Liyuan Li¹, Haotian Li¹, Kaiyuan Zhou¹, Xiao Xiao¹, Lina Chen^1,2, Fusheng Ma³, Junran Zhang⁴, Lin Wang⁴, Lei Zhang⁵ and Ronghua Liu^1*, Nano Letter，23，9243-9249 (2023). NJUPhysics News，ACS材料X微信公众号。

[52] Electrical gating of superconducting NbSe2 using SrTiO3-based field-effect transistors, Zhi Fang, Zui Tao, Haoying Sun, Kenji Watanabe, Takashi Taniguchi, Yang-Yang Lv, Yan-Bin Chen, Yuefeng Nie, Ronghua Liu, and Xiaoxiang Xi*, Appl. Phys. Lett. 123, 132601 (2023).

[51] Excitation and voltage-gated modulation of single-mode dynamics in a planar nano-gap spin Hall nano-oscillator, Lina Chen, Yu Chen, Zhenyu Gao, Kaiyuan Zhou, Zui Tao, Yong Pu,†  Tiejun Zhou,‡ and Ronghua Liu*, Phys. Rev. B 108, 054425(2023).

[50] Modulation of the magnetization and Gilbert damping in Heusler-alloy Co_3–xFe_xAl thin films, Ruifeng Wang, Xingtai Chen, Pengfei Yan, Yongkang Xu, Yilin Zhang, Jin Wang, Raymond Fan, Peter Bencok, Paul Steadman, Yao Li, Wenqin Zou, Yongbing Xu, Ronghua Liu*, Wenqing Liu*, Liang He*, Appl. Phys. Lett. 123, 012403 (2023).

[49] Micromagnetic simulations of spin⁃wave dynamics in a vertical nanocontact⁃based Spin Hall nano⁃oscillator(垂直点接触自旋霍尔纳米振荡器中自旋波动力学的微磁学模拟), Gengkuan Zhu(朱耿宽), Zhenyu Gao(高振宇), Lina Chen(陈丽娜), Kaiyuan Zhou(周恺元), Like Liang(梁力克), Zui Tao(陶醉), Ronghua Liu*(刘荣华), Progress in Physics《南京大学学报》（自然科学） 2023, 59(2): 213-221.

[48] Colossal Gilbert Damping Anisotropy in Heusler-Alloy Thin Films, Wang, Ruifeng; Wang, Wenqiang; Li, Zhihao; Gao, Qinwu; Wang, Jin; Xu, Yongkang; Yan, Pengfei; Zhang, Xiaolong; Zhang, Yilin; Xu, Yongbing; Liu, Ronghua*; He, Liang*, Advanced Electronic Materials, 20, 2300049(2023).

[47] Efficient characteristics of exchange coupling and spin-flop transition in Py/Gd bilayer using anisotropic magnetoresistance, Kaiyuan Zhou, Xiang Zhan, Zishuang Li, Haotian Li, Chunjie Yan, Lina Chen*,  and Ronghua Liu*, Appl. Phys. Lett. 122, 102403 (2023) (This paper was selected as Featured).

[46] Dynamical modes in a vertical nanocontact-based spin Hall nano-oscillator, Zhenyu Gao, Yang Chen, Lina Chen*, Gengkuan Zhu, Zishuang Li and Ronghua Liu*, Phys. Rev. B 107, 214410(2023).

[45] Self-Oscillations in a Nanogap Spin Hall Nano-Oscillator with a Perpendicularly Magnetized External Film, Lina Chen, Kaiyuan Zhou, Zui Tao, Zhenyu Gao, Like Liang, Zishuang Li, and Ronghua Liu*, Phys. Rev. Applied 19, 054051 (2023).

[44] Elementary excitations in an integrable twisted J1-J2 spin chain in the thermodynamic limit, Wei Wang1,2, Yi Qiao2, Rong-Hua Liu1, Wu-Ming Liu2,3,4,*, and Junpeng Cao2,3,4,5*, Phys. Rev. D 107, 056005(2023).

[43] Stochastic spin-orbit-torque device as the STDP synapse for spiking neural networks, Haotian Li, Liyuan Li, Kaiyuan Zhou, Chunjie Yan, Zhenyu Gao, Zishuang Li, and Ronghua Liu*,  Sci. China-Phys. Mech. Astron. 66, 257512 (2023). SCPMA News

[42] Experimental observation of interfacial Rashba-Edelstein magnetoresistance in Cr/YIG heterostructures, Zhendong Chen, Peng Chen, Yifei Wang, Wenqiang Wang, Zhe Zhang, Xianyang Lu, Ronghua Liu, Xiaolong Fan*, Guoqiang Yu*, and Fusheng Ma*, Phys. Rev. B 107, 014408 (2023).

[41] Temperature- and field angular-dependent helixcal spin period characterized by magnetic dynamics in a chiral helimagnet MnNb₃S_6, Liyuan Li, Kaiyuan Zhou, Haotian Li, Yaoyu Gu, Lina Chen, Lei Zhang^*, Y. W. Du, and R. H. Liu^*, Sci. China-Phys. Mech. Astron. 66, 217511 (2023). SCPMA News

[40] Thickness-dependent magnetic properties in Pt/[Co/Ni]_n multilayers with perpendicular magnetic anisotropy, Chunjie Yan, Lina Chen* Kaiyuan Zhou, Liupeng Yang, Qingwei Fu, Wenqiang Wang, Like Liang, Zui Tao, Jun Du, Yonglei Wang, Ronghua Liu*, Chin. Phys. B 32, 017503 (2023).

[39] Temperature-dependent magnetic order of two-dimensional ferromagnetic Cr₂Ge₂Te₆ single crystal, Yile Wang¹, Qingwei Fu², Shilei Ji¹, Xiaomiao Yin¹, Yu Chen¹, Ronghua Liu², Xing’ao Liu^1,*, Journal of Alloys and Compounds, 931, 167401(2023).

2022

[38] e_g Occupancy as a Predictive Descriptor for Spinel Oxide Nanozymes，Quan Wang, Chunyu Li, Xiaoyu Wang, Jun Pu, Shuo Zhang, Like Liang, Lina Chen, Ronghua Liu, Wenbin Zuo, Huigang Zhang, Yanhong Tao, Xingfa Gao, and Hui Wei*, Nano Lett. 22(24), 10003–10009(2022).

[37] Current-driven magnetization dynamics and its correlation with magnetization configurations in perpendicularly magnetized tunnel junctions, Kaiyuan Zhou¹, Lina Chen², Kequn Chi³, Qingwei Fu¹, Zui Tao¹, Like Liang¹, Zhenyu Gao¹, Haotian Li¹, Hao Meng³, Bo Liu³, Tiejun Zhou⁴, and R.H. Liu^1,* , J. Appl. Phys. 132, 173906 (2022).

[36] Observation of Nontrivial Spin-orbit Torque in Single Ferromagnetic Metals, Qingwei Fu, Like Liang, Wenqiang Wang, Liupeng Yang, Kaiyuan Zhou, Zishuang Li, Chunjie Yan, Liyuan Li, Haotian Li, and Ronghua Liu*, Phys. Rev. B 105, 224417(2022).

[35] Enhancement of spin-orbit torque efficiency by tailoring interfacial spin-orbit coupling in Pt-based magnetic multilayers, Wenqiang Wang, Gengkuan Zhu, Kaiyuan Zhou, Xiang Zhan, Zui Tao, Qingwei Fu, Like Liang, Zishuang Li, Lina Chen^*, Chunjie Yan, Haotian Li, Tiejun Zhou^*, and Ronghua Liu^* , Chin. Phys. B 31 (9), 097504(2022).

[34] Spatial coexistence of multiple modes in a nano-gap spin Hall nano-oscillator with the extended Pt/Ni/Fe trilayers Lina Chen, Wenqiang Wang, Xiang Zhan, Kaiyuan Zhou, Zhenyu Gao, Like Liang, Tiejun Zhou†, Youwei Du, and Ronghua Liu†, Phys. Rev. B 105, 104413 (2022). († corresponding author).

[33] Spin-orbit-torque efficiency and current-driven coherent magnetic dynamics in a Pt/Ni/Py trilayer-based spin Hall nano-oscillator, Lina Chen, Xiang Zhan, Kaiyuan Zhou, Wenqiang Wang, Like Liang, Zhenyu Gao, Youwei Du, Ronghua Liu*, Phys. Rev. Applied 17, 064041 (2022).

[32] Highly efficient spin-orbit torque in a perpendicular synthetic ferrimagnet, Zishuang Li*, Yining Fei*, Lina Chen, Xiang Zhan, Liupeng Yang, Chunjie Yan, Wenqiang Wang, Kaiyuan Zhou, Haotian Li, Fusheng Ma, Tiejun Zhou#, Youwei Du, and , Ronghua Liu^#, Phys. Rev. B 105，184419( 2022). (*co-authors, #corresponding authors)

[31] Exact ground state and elementary excitations of a competing spin chain with twisted boundary condition, Wei Wang, Yi Qiao, Junpeng Cao, Wu-Ming Liu*, Rong-Hua Liu*, Nuclear Physics B, 975, 115663(2022).

[30] Unconventional spin currents generated by the spin-orbit precession effect in perpendicularly magnetized CoTb ferrimagnetic system, Wenqiang Wang, Qingwei Fu, Kaiyuan Zhou, Lina Chen, Liupeng Yang, Zishuang Li, Zui Tao, Chunjie Yan, Like Liang, Xiang Zhan, Youwei Du, Ronghua Liu*, Phys. Rev. Applied 17, 034026 (2022).

2021

[29] Absence of spin transport in amorphous YIG evidenced by nonlocal spin transport experiments, Liupeng Yang, Yaoyu Gu, Lina Chen, Kaiyuan Zhou, Qingwei Fu, Wenqiang Wang, Liyuan Li, Chunjie Yan, Haotian Li, Like Liang, Zishuang Li, Yong Pu*, Youwei Du, and Ronghua Liu*, Phys. Rev. B 104, 144415(2021).

[28] Collimated and bidirectional propagating spin-wave generated by a nonlocal spin-injection nano-oscillator, Lina Chen, Zhenyu Gao, Kaiyuan Zhou, Youwei Du, and Ronghua Liu^* , Phys. Rev. Applied 16, 034044(2021).

[27] Magnetic dynamics of two-dimensional itinerant ferromagnet Fe₃GeTe_2, Lijun Ni, Zhendong Chen, Wei Li, Xianyang Lu, Yu Yan, Longlong Zhang, Chunjie Yan, Yang Chen, Yaoyu Gu, Yao Li, Rong Zhang, Ya Zhai, Ronghua Liu*, Yi Yang*, and Yongbing Xu*, Chin. Phys. B 30(9), 097501(2021). (*co-corresponding authors)

[26] Temperature and electric field effects on dynamic modes in spin current auto-oscillator, Lina Chen, Kaiyuan Zhou, Zishuang Li,  Youwei Du, and Ronghua Liu*, Phys. Rev. B 103, 144426(2021).

[25] Controllable excitation of multiple spin wave bullet modes in a spin Hall nano-oscillator based on [Ni/Co]/Pt multilayers, Lina Chen, Yang Chen, Kaiyuan Zhou, Haotian Li, Yong Pu,^* Yongbing Xu, Youwei Du, and Ronghua Liu,^*  Nanoscale, 13, 7838-7843(2021).

[24] Disentanglement of Longitudinal Spin Seebeck Effect from Anomalous Nernst Effect in FeRh/Heavy-Metal Bilayers, Sheng Zhang,^1,2,b) Siyu Xia,^1,3,b) Qian Li,⁴ Bin Yang,^1,3) Jun Li,^1,2) Qingqi Cao,^1,2) Dunhui Wang,^1,2,# Ronghua Liu^1,2,# and Youwei Du^1,2), [Appl. Phys. Lett. 118, 142401(2021)].(#co-corresponding authors) (Editor’s pick article).

[23] Spin-wave dynamics in an artificial kagome spin ice, Qiuyang Li, Suqin Xiong, Lina Chen^*, Kaiyuan Zhou, Rongxin Xiang, Haotian Li, Zhenyu Gao, R.H. Liu^* and Y. W. Du, [Chin. Phys. Lett. 38, 047501(2021)].

[22] Experiments and SPICE simulations of double MgO-based perpendicular magnetic tunnel junction. Qiuyang Li, Penghe Zhang, Haotian Li, Lina Chen, Kaiyuan Zhou, Cunjie Yan, LiYuan Li, Ronghua Liu,Yongbing Xu, Weixin Zhang, Bo Liu, Hao Meng and Youwei Du. [Chin. Phys. B 30, 047504(2021)].

[21] Maximizing spin-orbit torque efficiency of Ta(O)/Py via modulating oxygen-induced interface orbital hybridization, Liupeng Yang, Yining Fei, Kaiyuan Zhou, Lina Chen*, Qingwei Fu, Liyuan Li, Cunjie Yan, Haotian Li, Youwei Du, and Ronghua Liu*, Appl. Phys. Lett. 118, 032405 (2021).

2020

[20] Recent Progress on Excitation and Manipulation of Spin-Waves in Spin Hall Nano-Oscillators. Liyuan Li(李丽媛), Lina Chen(陈丽娜)^†, Ronghua Liu(刘荣华)^*, and Youwei Du(都有为), Chin. Phys. B  29, 117102(2020).

[19] Field- and Current-Driven Magnetization Reversal and Dynamic Properties of CoFeB-MgO-Based Perpendicular Magnetic Tunnel Junctions. Qingwei Fu*, Kaiyuan Zhou*, Lina Chen, Yongbing Xu, Tiejun Zhou, Dunhui Wang, Kequn Chi, Hao Meng, Bo Liu, Ronghua Liu# and Youwei Du, Chin. Phys. Lett. 37, 117501 (2020).(*co-authors, #corresponding authors)

[18] Strong interface-induced spin-charge conversion in YIG/Cr heterostructures. Lijun Ni1, *, Zhendong Chen1, *, Xianyang Lu1, #, Yu Yan1, Lichuan Jin4, Jian Zhou1, Wencheng Yue3, Zhe Zhang1, Longlong Zhang1, Wenqiang Wang1, Yong-Lei Wang3, Xuezhong Ruan1, Wenqing Liu1, Liang He1, Rong Zhang1, Huaiwu Zhang4, Bo Liu5, Ronghua Liu2, # Hao Meng5, #& Yongbing Xu1, 6, #, [Appl. Phys. Lett. 117,112402(2020)] (#-co-corresponding authors), (Editor’s pick article).

[17] Nonlinear Dynamics and Applications of Spin Hall Nano-Oscillators(自旋霍尔纳米振荡器的非线性动力学及其应用), Ronghua Liu*(刘荣华), LiYuan Li(李丽媛), Lina Chen(陈丽娜), Kaiyuan Zhou(周恺元), Youwei Du(都有为), Progress in Physics《南京大学学报》（自然科学）  2020, 40(6): 189-210.

[16] Mode Structures and Damping of Quantized Spin Waves in Ferromagnetic Nanowires. Qingwei Fu¹, Yong Li², Lina Chen¹, Fusheng Ma², Haotian Li¹, Yongbing Xu^3,4, Bo Liu⁵, Ronghua Liu^1*, and Youwei Du, [Chin. Phys. Lett. 37, 087503(2020)]

[15] Interfacial Dzyaloshinskii-Moriya interaction between ferromagnetic insulator and heavy metal. Siyu Xia, Sheng Zhang, Zhongzhi Luan, Lifan Zhou, Jinghua Liang, Gan Liu, Bin Yang,Hongxin Yang, Ronghua Liu and  D. Wu*. [Appl. Phys. Lett. 116, 052404 (2020)]

[14] Electrical generation and detection of spin waves in polycrystalline YIG/Pt grown on silicon wafers. Rongxin Xiang, Lina Chen^*, Sheng Zhang, Haotian Li, J. Du, Y. W. Du, and R.H. Liu*, [Materials Research Express 7, 046105 (2020)]

[13] Magnetic droplet mode in a vertical nanocontact-based spin Hall nano-oscillator at oblique fields. Lina Chen, S. Urazhdin, Kaiyuan Zhou, Y. W. Du, and R. H. Liu*, [Phys. Rev. Applied 13, 024034 (2020)]

2019

[12] Dynamical mode coexistence and chaos in the nano-gap spin Hall nano-oscillator. Lina Chen, Kaiyuan Zhou, S. Urazhdin, Wencong Jiang, Y.W. Du, and R. H. Liu*, [Phys. Rev. B 100, 104436 (2019)]

[11] Physical reservoir computing using magnetic skyrmion memristor and spin torque nano-oscillator. Wencong Jiang*, Lina Chen*, Kaiyuan Zhou, Liyuan Li, Qingwei Fu, Youwei Du, and R.H. Liu, [Appl. Phys. Lett. 115, 192403 (2019)] (Featured article).

[10] Observation of topological Hall effect in antiferromagnetic FeRh film. Sheng Zhang, Siyu Xia, Qingqi Cao, Dunhui Wang*, Ronghua Liu*, and Youwei Du, [Applied Physics Letters. 115, 022404 (2019)] (Editor’s pick article).

[9] Dynamical Mode Coupling and Coherence in a Spin Hall Nano-Oscillator with Perpendicular Magnetic Anisotropy. Lina Chen, S. Urazhdin, Y.W. Du, and R.H. Liu*, [Physical Review Applied 11, 064038 (2019)].

[8] Enhanced spin accumulation in metallic bilayers with opposite spin Hall angles. Z. Z. Luan, L. F. Zhou, P. Wang, S. Zhang, J. Du, J. Xiao, R. H. Liu, and D. Wu*, [Physical Review B 99, 174406 (2019)]

2018

[7] Evidence for negative thermal expansion in the superconducting precursor phase SmFeAsO, H. D. Zhou, P. M. Sarte, B. S. Conner, L. Balicas, C. R. Wiebe, X. H. Chen, T. Wu, G. Wu, R. H. Liu, H. Chen and D. F. Fang*, J. Phys.: Condens. Matter 30, 095601(2018).

2017

[6] Controlling the Spectral Characteristics of a Spin-Current Auto-Oscillator with an Electric Field. R. H. Liu (刘荣华), Lina Chen, S. Urazhdin, and Y. W. Du (都有为), [Physical. Review Applied 8, 021001 (2017)] (Letter).

Earlier Publications before 2016

[5] Excitation of coherent propagating spin waves by pure spin currents. Vladislav E. Demidov, Sergei Urazhdin, Ronghua Liu, Boris Divinskiy, Andrey Telegin & Sergej O. Demokritov, [Nature Communications 7, 10446 (2016)].

[4] Dynamical Skyrmion State in a Spin Current Nano-Oscillator with Perpendicular Magnetic Anisotropy. R. H. Liu (刘荣华), W. L. Lim, and S. Urazhdin, [Physical Review Letters 114, 137201 (2015)].

[3] Control of current-induced spin-orbit effects in a ferromagnetic heterostructure by electric field. R. H. Liu, W. L. Lim, and S. Urazhdin,  [Physical Review B 89, 220409(R) (2014)].

[2] Fast chirality reversal of the magnetic vortex by electric current. W. L. Lim, R. H. Liu, T. Tyliszczak, S. G. Erokhin, D. Berkov, and S. Urazhdin,  [Applied Physical Letters 105, 222405 (2014)].

[1] Spectral Characteristics of the Microwave Emission by the Spin Hall Nano-Oscillator. R. H. Liu, W. L. Lim, and S. Urazhdin, [Physical Review Letters 110, 147601 (2013)].

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High-temperature superconductors and new functional materials

[9] Structural and magnetic properties of the layered manganese oxychalcogenides (LaO)2Mn2Se2O and (BaF)2Mn2Se2O, RH Liu, JS Zhang, P Cheng, XG Luo, JJ Ying, YJ Yan, M Zhang, AF Wang, ZJ Xiang, GJ Ye, XH Chen, Physical Review B 83 (17), 174450(2011). Also see featured as a Trend Article by Chinese Science Bulletin.

[8] Spin-density-wave transition of Fe1 zigzag chains and metamagnetic transition of Fe2 in TaFe1+yTe3, RH Liu, M Zhang, P Cheng, YJ Yan, ZJ Xiang, JJ Ying, XF Wang, AF Wang, GJ Ye, XG Luo, XH Chen, Physical Review B 84 (18), 184432(2011).

[7] Coexistence of superconductivity and antiferromagnetism in single crystals A0. 8Fe2-ySe2 (A= K, Rb, Cs, Tl/K and Tl/Rb): Evidence from magnetization and resistivity, RH Liu, XG Luo, M Zhang, AF Wang, JJ Ying, XF Wang, YJ Yan, ZJ Xiang, P Cheng, GJ Ye, ZY Li, XH Chen, EPL (Europhysics Letters) 94 (2), 27008(2011). Also see featured in EPL’s Best of 2011 collection.

[6] Structure and Physical Properties of the Layered Pnictide-Oxides:(SrF)2Ti2Pn2O (Pn= As, Sb) and (SmO)2Ti2Sb2O, RH Liu, YA Song, QJ Li, JJ Ying, YJ Yan, Y He, XH Chen, Chemistry of Materials 22 (4), 1503-1508(2010). Also see featured in ChemInform and ChemFeeds.

[5] Physical properties of the layered pnictide oxides Na2Ti2Pn2O (Pn=As, Sb), RH Liu, D Tan, YA Song, QJ Li, YJ Yan, JJ Ying, YL Xie, XF Wang, XH Chen, Physical Review B 80 (14), 144516(2009).

[4] A large iron isotope effect in SmFeAsO1-xFx and Ba1-xKxFe2As2, RH Liu, T Wu, G Wu, H Chen, XF Wang, YL Xie, JJ Ying, YJ Yan, QJ Li, BC Shi, WS Chu, ZY Wu, XH Chen, Nature 459, 64-67(2009). Also see featured as  Iron arsenide superconductors: What is the glue in News and Views by Nature Phyiscs; New High-Temperature Superconductors Feel a Familiar Vibe in ScienceNOW;  Superconductivity: Isotopes in Research Highlights by NatureCHINA.

[3] A BCS-like gap in the superconductor SmFeAsO0.85F0.15, TY Chen, Z Tesanovic, RH Liu, XH Chen, CL Chien, Nature 453, 1224-1227(2008).

[2] Anomalous Transport Properties and Phase Diagram of the FeAs-Based SmFeAsO1-xFx Superconductors, RH Liu, G Wu, T Wu, DF Fang, H Chen, SY Li, K Liu, YL Xie, XF Wang, RL Yang, L Ding, C He, DL Feng, XH Chen, Physical review letters 101 (8), 087001(2008).

[1] Superconductivity at 43 K in SmFeAsO1-xFx, XH Chen, T Wu, G Wu, RH Liu, H Chen, DF Fang, Nature 453, 761-762(2008).

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ALL Publications in Detail

Google Scholar     
https://scholar.google.com/citations?user=JWLREr4AAAAJ&hl=en

Researcher ID

http://www.researcherid.com/rid/A-3672-2019

ORCiD

https://orcid.org/0000-0002-4053-3923