Associate ProfessorMing-Hao Liu

• Position	Associate Professor
  Name	Ming-Hao Liu
  Ext	65236
  Office	36553
  Education	Ph.D., National Taiwan University
  E-mail	minghao.liu@phys.ncku.edu.tw
  Website	Go to link
  Speciality	Quantum transport theory, graphene, solid state physics, mesoscopic physics, numerical simulation

• Born in Gangshan district of Kaohsiung, a native PhD who made up his mind to become a theoretical physicist during high school. Professor Liu obtained his PhD from National Taiwan University in 2008, completed the compulsory military service in 2009, and went to Germany for postdoctoral research, which unexpectedly last for more than 6 years. In 2017, he returned to Taiwan and became an assistant professor in Department of Physics, National Cheng Kung University, which was a dream-come-true that took him about 20 years. Since he joined NCKU Physics, he has taught Geneneral Physics, Solid-State Physics, and Semiconductor Physics. His research interest and expertise lie on the theory and numerical simulations of quantum electronic transport, focusing particularly on graphene-related materials in recent years. Due to his background, experience, and interest, he can speak native Taiwanese, fluent English, and basic German (B1), in addition to Mandarin Chinese - the official language in Taiwan. His style of supervising students, he believes, is to provide appropriate and effient guides, while keeping sufficient freedom for students to explore at the same time. Due to his inability in pressing students, the style may fit better only those who are highly motivated and self-disciplined. Students who are lack of their own thoughts, goals, and motivation will find it difficult to succeed in the group. Professor Liu was a football (American soccer) player during his studies. He played in the university football teams during his bachelor, master, and PhD (captained 2003-2004), winning several titles from the University Championships of Taiwan. His wife was his classmate during their bachelor but unfortunately dislikes or even hates physics. Convincing his wife to listen to his new ideas or understandings is perhaps the hardest training in improving his presentation and teaching skills. In addition to latest news in physics, he also pays attention to politics (important public issues) and football. His hobbies include football, beer, and heavy metal. He is a supporter of FC Barcelona and Argentina FA.
   

• Experience:

  02.2019–	Department of Physics, National Cheng Kung University	Associate Professor
  02.2017–01.2019	Department of Physics,National Cheng Kung University	Assistant Professor
  03.2013–01.2017	Institute of Theoretical Physics, University of Regensburg	Postdoctoral Researcher
  02.2011–01.2013	Institute of Theoretical Physics, University of Regensburg	Alexander von Humboldt Postdoc Fellow
  06.2009–08.2010	Department of Physics, National Taiwan University	Postdoctoral Researcher
  07.2008–05.2009	ROC Armed Forces	Artillery Second Lieutenant (Compulsory Military Service)

  Education:

  09.2003–06.2008	Department of Physics, National Taiwan University	Ph.D.
  06.2001–06.2003	Department of Physics, National Taiwan University	M.S.
  09.1997–06.2001	Department of Physics, National Sun Yat-Sen University	B.Sc.

• No.	Graduation	Name	Thesis Title	Degree
  4	2023.06 (scheduled)	Ching-Hung Chiu	Aharanov-Bohm effect in graphene: A numerical study (tentative)	Master
  3	2021.01	Ka Long Lei	Electron waveguide in graphene	Master
  2	2020.07	Wun-Hao Kang	Electronic negative refraction across pn junctions in graphene	Master
  1	2019.06	Hsi-Ping Yu	Edge and pn interface states in graphene	Master

• No.	Project Name (Grant Number)	Period	Funding Agency	Position
  2	Quantum Transport in Graphene and Graphene Superlattices (109-2112-M-006-020-MY3)	2020.08.01-2023.07.31	MOST	PI
  1	Electron Optics in Graphene (107-2112-M-006-004-MY3)	2018.03.01-2020.07.31	MOST	PI

• • Manipulating electron waves in graphene using carbon nanotube gating, Shiang-Bin Chiu (邱翔彬), Alina Mreńca-Kolasińska (柯琳娜), Ka Long Lei (李嘉朗), Ching-Hung Chiu (邱靖鈜), Wun-Hao Kang (康文豪), Szu-Chao Chen (陳思超), and Ming-Hao Liu (劉明豪), Phys. Rev. B 105, 195416 (2022)
  • Quantum capacitive coupling between large-angle twisted graphene layers, Alina Mreńca-Kolasińska, Peter Rickhaus, Giulia Zheng, Klaus Richter, Thomas Ihn, Klaus Ensslin, and Ming-Hao Liu, 2D Mater. 9, 025013 (2022)
  • Dirac fermion optics and directed emission from single- and bilayer graphene cavities, Jule-Katharina Schrepfer, Szu-Chao Chen (陳思超), Ming-Hao Liu (劉明豪), Klaus Richter, and Martina Hentschel, Phys. Rev. B 104, 155436 (2021)
  • Cloning of zero modes in one-dimensional graphene superlattices, Wun-Hao Kang (康文豪), Szu-Chao Chen (陳思超), and Ming-Hao Liu (劉明豪), Phys. Rev. B 102, 195432 (2020)
  • Unconventional ferroelectricity in moiré heterostructures, Zhiren Zheng, Qiong Ma, Zhen Bi, Sergio de la Barrera, Ming-Hao Liu, Nannan Mao, Yang Zhang, Natasha Kiper, Kenji Watanabe, Takashi Taniguchi, Jing Kong, William A. Tisdale, Ray Ashoori, Nuh Gedik, Liang Fu, Su-Yang Xu & Pablo Jarillo-Herrero, Nature 588, 71–76 (2020)
  • Anomalous Cyclotron Motion in Graphene Superlattice Cavities, Rainer Kraft, Ming-Hao Liu (劉明豪), Pranauv Balaji Selvasundaram, Szu-Chao Chen (陳思超), Ralph Krupke, Klaus Richter, and Romain Danneau, Phys. Rev. Lett. 125, 217701 (2020)
  • Valley splitter and transverse valley focusing in twisted bilayer graphene, Christophe De Beule, Peter G. Silvestrov, Ming-Hao Liu (劉明豪), and Patrik Recher, Phys. Rev. Research 2, 043151 (2020)
  • Gate-Tunable Two-Dimensional Superlattices in Graphene, Robin Huber, Ming-Hao Liu, Szu-Chao Chen, Martin Drienovsky, Andreas Sandner, Kenji Watanabe, Takashi Taniguchi, Klaus Richter, Dieter Weiss, and Jonathan Eroms, Nano Lett. 21, 8046 (2020)
  • Electrostatic superlattices on scaled graphene lattices, Szu-Chao Chen, Rainer Kraft, Romain Danneau, Klaus Richter, Ming-Hao Liu, Communications Physics 3, Article number: 71 (2020)
  • The electronic thickness of graphene, Peter Rickhaus, Ming-Hao Liu, Marcin Kurpas, Annika Kurzmann, Yongjin Lee, Hiske Overweg, Marius Eich, Riccardo Pisoni, Takashi Taniguchi, Kenji Watanabe, Klaus Richter, Klaus Ensslin, Thomas Ihn, Science Advances 6, no. 11, eaay8409 (2020)
  • Characterization of hydrogen plasma defined graphene edges, Mirko K. Rehmann, Yemliha B. Kalyoncu, Marcin Kisiela, Nikola Pascher, Franz J. Giessibl, Fabian Müller Kenji Watanabe, Takashi Taniguchi, Ernst Meyer, Ming-Hao Liu, Dominik M. Zumbühl, Carbon 150, 417 (2019)
  • New Generation of Moiré Superlattices in Doubly Aligned hBN/Graphene/hBN Heterostructures, Lujun Wang, Simon Zihlmann, Ming-Hao Liu, Péter Makk, Kenji Watanabe, Takashi Taniguchi, Andreas Baumgartner, Christian Schönenberger, Nano Lett. 19, 2371 (2019)
  • Transport Through a Network of Topological Channels in Twisted Bilayer Graphene, Peter Rickhaus, John Wallbank, Sergey Slizovskiy, Riccardo Pisoni, Hiske Overweg, Yongjin Lee, Marius Eich, Ming-Hao Liu, Kenji Watanabe, Takashi Taniguchi, Thomas Ihn, Klaus Ensslin, Nano Lett. 18, 6725 (2019)
  • Tuning Anti-Klein to Klein Tunneling in Bilayer Graphene, Renjun Du (杜人君), Ming-Hao Liu (劉明豪), Jens Mohrmann, Fan Wu (吴凡), Ralph Krupke, Hilbert von Löhneysen, Klaus Richter, and Romain Danneau, Phys. Rev. Lett. 121, 127706 (2019)
  • Commensurability Oscillations in One-Dimensional Graphene Superlattices, Martin Drienovsky, Jonas Joachimsmeyer, Andreas Sandner, Ming-Hao Liu (劉明豪), Takashi Taniguchi, Kenji Watanabe, Klaus Richter, Dieter Weiss, and Jonathan Eroms, Phys. Rev. Lett. 121, 026806 (2019)
  • Coexistence of classical snake states and Aharonov-Bohm oscillations along graphene p-n junctions, Péter Makk, Clevin Handschin, Endre Tóvári, Kenji Watanabe, Takashi Taniguchi, Klaus Richter, Ming-Hao Liu (劉明豪), and Christian Schönenberger, Phys. Rev. B 98, 035413 (2018)
  • Probing spin helical surface states in topological HgTe nanowires, J. Ziegler, R. Kozlovsky, C. Gorini, M.-H. Liu, S. Weishäupl, H. Maier, R. Fischer, D. A. Kozlov, Z. D. Kvon, N. Mikhailov, S. A. Dvoretsky, K. Richter, and D. Weiss, Phys. Rev. B 97, 035157 (2018)
  • Giant Valley-Isospin Conductance Oscillations in Ballistic Graphene, Clevin Handschin, Péter Makk, Peter Rickhaus, Romain Maurand, Kenji Watanabe, Takashi Taniguchi, Klaus Richter, Ming-Hao Liu, and Christian Schönenberger, Nano Lett. 17, 5389 (2017)
  • Oscillating Magnetoresistance in Graphene p–n Junctions at Intermediate Magnetic Fields, Hiske Overweg, Hannah Eggimann, Ming-Hao Liu, Anastasia Varlet, Marius Eich, Pauline Simonet, Yongjin Lee, Kenji Watanabe, Takashi Taniguchi, Klaus Richter, Vladimir I. Fal’ko, Klaus Ensslin, Thomas Ihn, Nano Lett. 17, 2852 (2017)
  • Creating and Steering Highly Directional Electron Beams in Graphene, Ming-Hao Liu, Cosimo Gorini, Klaus Richter, Phys. Rev. Lett. 118, 066801 (2017)
  • Fabry-Pérot Resonances in a Graphene/hBN Moiré Superlattice, Clevin Handschin, Péter Makk, Peter Rickhaus, Ming-Hao Liu, K. Watanabe, T. Taniguchi, Klaus Richter, Christian Schönenberger, Nano Lett. 17, 328 (2016)
  • Gate-controlled conductance enhancement from quantum Hall channels along graphene p–n junctions, Endre Tóvári, Péter Makk, Ming-Hao Liu, Peter Rickhaus, Zoltán Kovács-Krausz, Klaus Richter, Christian Schönenberger, Szabolcs Csonka, Nanoscale 8, 19910 (2016)
  • Terahertz ratchet effects in graphene with a lateral superlattice, P. Olbrich, J. Kamann, M. König, J. Munzert, L. Tutsch, J. Eroms, D. Weiss, Ming-Hao Liu, L. E. Golub, E. L. Ivchenko, V. V. Popov, D. V. Fateev, K. V. Mashinsky, F. Fromm, Th. Seyller, and S. D. Ganichev, Phys. Rev. B 93, 075422 (2016)
  • Gate tuneable beamsplitter in ballistic graphene, Peter Rickhaus, Péter Makk, Ming-Hao Liu, Klaus Richter, Christian Schönenberger, Appl. Phys. Lett. 107, 251901 (2015)
  • Band gap and broken chirality in single-layer and bilayer graphene, Anastasia Varlet, Ming-Hao Liu, Dominik Bischoff, Pauline Simonet, Takashi Taniguchi, Kenji Watanabe, Klaus Richter, Thomas Ihn, Klaus Ensslin, Physica Status Solidi RRL 10, 46 (2015)
  • Guiding of Electrons in a Few-Mode Ballistic Graphene Channel, Peter Rickhaus, Ming-Hao Liu, Péter Makk, Romain Maurand, Samuel Hess, Simon Zihlmann, Markus Weiss, Klaus Richter, Christian Schönenberger, Nano Lett. 15, 5819 (2015)
  • Snake trajectories in ultraclean graphene p-n junctions, Peter Rickhaus, Péter Makk, Ming-Hao Liu, Endre Tóvári, Markus Weiss, Romain Maurand, Klaus Richter, Christian Schönenberger, Nature Communications 6, Article number: 6470 (2015)
  • Scalable Tight-Binding Model for Graphene, Ming-Hao Liu, Peter Rickhaus, Péter Makk, Endre Tóvári, Romain Maurand, Fedor Tkatschenko, Markus Weiss, Christian Schönenberger, Klaus Richter, Phys. Rev. Lett. 114, 036601 (2015)
  • Fabry-Pérot interference in gapped bilayer graphene with broken anti-Klein tunneling, Anastasia Varlet, Ming-Hao Liu, Viktor Krueckl, Dominik Bischoff, Pauline Simonet, Kenji Watanabe, Takashi Taniguchi, Klaus Richter, Klaus Ensslin, Thomas Ihn, Phys. Rev. Lett. 113, 116601 (2014)
  • Towards superlattices: Lateral bipolar multibarriers in graphene, Martin Drienovsky, Franz-Xaver Schrettenbrunner, Andreas Sandner, Dieter Weiss, Jonathan Eroms, Ming-Hao Liu, Fedor Tkatschenko, Klaus Richter, Phys. Rev. B 89, 115421 (2014)
  • Spin conductance of diffusive graphene nanoribbons: A probe of zigzag edge magnetization, Jan Bundesmann, Ming-Hao Liu, İnanç Adagideli, Klaus Richter, Phys. Rev. B 88, 195406 (2013)
  • Ballistic interferences in suspended graphene, Peter Rickhaus, Romain Maurand, Ming-Hao Liu, Markus Weiss, Klaus Richter, Christian Schönenberger, Nature Communications 4, Article number: 2342 (2013)
  • Gate-induced carrier density modulation in bulk graphene: Theories and electrostatic simulation using Matlab pdetool, Ming-Hao Liu, J. Comput. Electron. Volume 12, Issue 2, pp 188-202 (2013)
  • Theory of carrier density in multigated doped graphene sheets with quantum correction, Ming-Hao Liu, Phys. Rev. B 87, 125427 (2013)
  • Edge state effects in junctions with graphene electrodes, Dmitry A. Ryndyk, Jan Bundesmann, Ming-Hao Liu, Klaus Richter, Phys. Rev. B 86, 195425 (2012)
  • Efficient quantum transport simulation for bulk graphene heterojunctions, Ming-Hao Liu and Klaus Richter, Phys. Rev. B 86, 115455 (2012)
  • Spin-dependent Klein tunneling in graphene: Role of Rashba spin-orbit coupling, Ming-Hao Liu, Jan Bundesmann, Klaus Richter, Phys. Rev. B 85, 085406 (2012)

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  For earlier publications and recently submitted manuscripts, see here.
• • MOST Ta-You Wu Memorial Award 2021
  • AUMS Young Researcher Award 2018