黄 平

职 称:

所在系所:

个人主页:ping.huang.gr.xjtu.edu.cn

E-MAIL:ping.huang@mail.xjtu.edu.cn

专业方向:凝聚态物理

研究领域或方向
主要关注原子结构、电荷、自旋、轨道以及各种准粒子激发等的有序和集体行为,具体包括:
1. 经典和量子相变
2. 临界现象及其普适性
3. 复杂体系和非平衡动力学
学术成果
* 相同贡献
[1] Ping Huang, Marco Cantoni, Arnaud Magrez, Fabrizio Carbone, and Henrik M. Rønnow, “Melting a skyrmion lattice topologically: through the hexatic phase to a skyrmion liquid,” arXiv:1807.08352 [cond-mat] (2018)
[2] Ping Huang, Marco Cantoni, Alex Kruchkov, Jayaraman Rajeswari, Arnaud Magrez, Fabrizio Carbone, and Henrik M. Rønnow, “In Situ Electric Field Skyrmion Creation in Magnetoelectric Cu2OSeO3,” Nano Lett. 18, 5167–5171 (2018)
[3] Ping Huang, Marco Cantoni, Arnaud Magrez, Fabrizio Carbone, and Henrik M. Rønnow, “Tuning of a skyrmion cluster in magnetoelectric Cu2OSeO3 by electric field,” arXiv:1810.04649 [cond-mat] (2018)
[4] Ping Huang, Rajeswari Jayaraman, Giulia Fulvia Mancini, Alex Kruchkov, Marco Cantoni, Yoshie Murooka, Tatiana Latychevskaia, Damien McGrouther, Edoardo Baldini, Jonathan Stuart White, Arnaud Magrez, Thierry Giamarchi, Fabrizio Carbone, and Henrik Moodysson Rønnow, “Investigating Skyrmions Using Lorentz Transmission Electron Microscopy,” Microsc. Microanal. 24, 932–933 (2018).
[5] G. Berruto, I. Madan, Y. Murooka, G. M. Vanacore, E. Pomarico, J. Rajeswari, R. Lamb, P. Huang, A. J. Kruchkov, Y. Togawa, T. LaGrange, D. McGrouther, H. M. Rønnow, and F. Carbone, “Laser-Induced Skyrmion Writing and Erasing in an Ultrafast Cryo-Lorentz Transmission Electron Microscope,” Phys. Rev. Lett. 120, 117201 (2018).
[6] Jan Müller*, Jayaraman Rajeswari*, Ping Huang*, Yoshie Murooka, Henrik M. Rønnow, Fabrizio Carbone, and Achim Rosch, “Magnetic Skyrmions and Skyrmion Clusters in the Helical Phase of Cu2OSeO3,” Phys. Rev. Lett. 119, 137201 (2017).
[7] Diane Lançon, Gøran J. Nilsen, Andrew R. Wildes, Kirill Nemkovski, Ping Huang, Dóra Fejes, Henrik M. Rønnow, and Arnaud Magrez, “MnO nanoparticles as the cause of ferromagnetism in bulk dilute Mn-doped ZnO,” Appl. Phys. Lett. 109, 252405 (2016).
[8] A. Pisoni, S. Katrych, A. Arakcheeva, T. Verebélyi, M. Bokor, P. Huang, R. Gaál, P. Matus, J. Karpinski, and L. Forró, “Single crystals of superconducting SmFeAsOHx: structure and properties,” Phys. Rev. B 94, 024525 (2016).
[9] G. S. Tucker, J. S. White, J. Romh´anyi, D. Szaller, I. K´ezsm´arki, B. Roessli, U. Stuhr, A. Magrez, F. Groitl, P. Babkevich, P. Huang, I. Živković, and H. M. Rønnow, “Spin excitations in the skyrmion host Cu2OSeO3,” Phys. Rev. B 93, 054401 (2016).
[10] Jayaraman Rajeswari*, Ping Huang*, Giulia Fulvia Mancini, Yoshie Murooka, Tatiana Latychevskaia, Damien McGrouther, Marco Cantoni, Edoardo Baldini, Jonathan Stuart White, Arnaud Magrez, Thierry Giamarchi, Henrik Moodysson Rønnow, and Fabrizio Carbone, “Filming the formation and fluctuation of skyrmion domains by cryo-Lorentz transmission electron microscopy,” Proc. Natl. Acad. Sci. USA 112, 14212 (2015).
[11] F. Carbone, R. Jayaraman, Y. Murooka, G. F. Mancini, E. Baldini, P. Huang, M. Cantoni, A. Magrez, D. McGrouther, T. Giamarchi, and H. M. Rønnow, “Magnetic Dynamics Studied by Time-Resolved Electron Microscopy,” Microsc. Microanal. 21, 649–650 (2015).
[12] V. Dyadkin, K. Prˇsa, S. V. Grigoriev, J. S. White, P. Huang, H. M. Rønnow, A. Magrez, C. D. Dewhurst, and D. Chernyshov, “Chirality of structure and magnetism in the magnetoelectric compound Cu2OSeO3,” Phys. Rev. B 89, 140409 (2014).
[13] J. S. White, K. Prˇsa, P. Huang, A. A. Omrani, I. Živković, M. Bartkowiak, H. Berger, A. Magrez, J. L. Gavilano, G. Nagy, J. Zang, and H. M. Rønnow, “Electric-Field-Induced Skyrmion Distortion and Giant Lattice Rotation in the Magnetoelectric Insulator Cu2OSeO3,” Phys. Rev. Lett. 113, 107203 (2014)
[14] Ping Huang, Long Jing, Huarui Zhu, and Xueyun Gao, “Diazonium Functionalized Graphene: Microstructure, Electric, and Magnetic Properties,” Acc. Chem. Res. 46, 43–52 (2013).
[15] Long Jing, Ping Huang, Huarui Zhu, and Xueyun Gao, “Spin-Polarized Semiconductors: Tuning the Electronic Structure of Graphene by Introducing a Regular Pattern of sp3 Carbons on the Graphene Plane,” Small 9, 306–311 (2013).
[16] Ping Huang, Long Jing, Hua Rui Zhu, and Xue Yun Gao, “Transport properties of diazo- nium functionalized graphene: chiral two-dimensional hole gases,” J. Phys.: Condens. Matter 24, 235305 (2012).
[17] Huarui Zhu*, Ping Huang*, Long Jing, Taisen Zuo, Yuliang Zhao, and Xueyun Gao, “Mi- crostructure evolution of diazonium functionalized graphene: A potential approach to change graphene electronic structure,” J. Mater. Chem. 22, 2063–2068 (2012).
[18] Ping Huang, Huarui Zhu, Long Jing, Yuliang Zhao, and Xueyun Gao, “Graphene Covalently Binding Aryl Groups: Conductivity Increases Rather than Decreases,” ACS Nano 5, 7945–7949 (2011).
[19] Jing Shi, Z. Tang, B. P. Zhu, P. Huang, D. Yin, C. Z. Li, Y. Wang, and H. Wen, “Dynamical magnetic properties of the spin ice crystal Dy2Ti2O7,” J. Magn. Magn. Mater. 310, 1322–1324 (2007).


 

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