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GUANG BIAN
Department of Physics and Astronomy
University of Missouri, Columbia, MO 65201, USA
Office: (573) 882-7892; Fax: (573) 882-4195
Email: [email protected]
Education
University of Illinois at Urbana-Champaign (2007-2012), Ph.D. Physics
Tsinghua University, Beijing (2004-2007), M.S. Physics
Tsinghua University, Beijing (2000-2004), B.S. Physics
Employment
Assistant Professor, Department of Physics, University of Missouri, Columbia (Aug. 2016-)
Postdoctoral Research Associate, Department of Physics, Princeton University (2013-2016)
Research Interests
Design and fabrication of novel functional materials including exotic topological phases of
condense matter and nanoscale low-dimensional systems.
Synthesizing atomically uniform thin films and heterostructures by molecular beam epitaxy.
First-principles calculation and modeling of electronic structures and spectral functions.
Characterization of materials with various experimental tools (ARPES, STM, XRD, LEED).
Honors and Awards
Physics Alumni Faculty Fellow, University of Missouri, Columbia, 2018
University Fellowship, University of Illinois at Urbana-Champaign, 2012
Yee Memorial Fund Fellowship, University of Illinois at Urbana-Champaign, 2011
Aladdin Lamp Award, Synchrotron Radiation Center, Wisconsin, 2010
Best Poster Prize, Users' Meeting, Synchrotron Radiation Center, Wisconsin, 2009
Tsang Hin-Chi Scholarship, Tsinghua University, Beijing, 2001
Research Grants
Design and Characterization of Novel Superconducting Topological Semimetals, National
Science Foundation (NSF) DMR#0054904, 09/01/2018-08/31/2021, PI: Guang Bian,
$444K.
MRI: Acquisition of an ultrafast amplified laser system for nonlinear optics and
time-resolved spectroscopic studies of condensed matter systems, NSF ECCS-MRI#1827846,
PI: Suchi Guha, Co-PI: Ping Yu, Guang Bian, Rainer Glaser, and Heather Hunt, $352K.
Professional Societies
American Physical Society (APS, 2009-)
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Mentoring
MU graduates in Ph.D. program: Qiangsheng Lu, Jacob Cook
MU undergraduates: Adam Smith, Chi Chen, Buyuan Luo, Madison Schwinn, Xiangyu Lin,
Matthew Snyder
Teaching
Condensed Matter Physics II (PHYS 8160): 2016 Fall
Introductions to Modern Physics (PHYS 3150): 2017, 2018 Fall
Electricity and Magnetism (PHYS 4100): 2019 Spring
Professional Services:
University Services: MU MRSEC Advisory Committee
Department Services:CM/BIO/ECE Seminar Committee, Ph.D. Qualifying Exam Committee, Ph.D.
Dissertation Award Committee, Faculty Publication Webpage Administrator
Journal Reviewer: Nature Physics, Physical Review Letters, Physical Review B, Physical Review Materials,
Nano Letters, New Journal of Physics, Journal of Physics:Condensed Matters, 2D Materials, Scientific Reports,
EuroPhysics Letters (EPL), Journal of Physics and Chemistry of Solids, Nanotechnology, Surface Review and
Letters, NPG Asia Materials, Modern Physics Letters B, npj Quantum Materials, Journal of Electron
Spectroscopy and Related Phenomena, International Journal of Modern Physics B, Applied Physics A,
Materials Research Express, Semiconductor Science and Technology, Nanoscale Research Letters, Journal of
Magnetism and Magnetic Materials, Journal of Physics D: Applied Physics, Quantum Information Processing
Grant and Proposal Reviewer: Department of Energy (DOE)
Session Chair: Topological Materials-Heterostructures and Spectroscopy, APS March Meeting, 2018
Dirac/Weyl Semimetals-Optical and Spectroscopy, APS March Meeting, 2019
Organizer: The DMP Focus Topic Session on “Dirac & Weyl Semimetals: Prediction, Synthesis,
Characterization, and New Phenomena”, APS March Meeting, 2019
Guest Editor: "Recent Advances in Novel Topological Materials", a special issue of Crystals (ISSN
2073-4352)
Invited Talks and Seminars
1. University of Kansas, Lawrence, Kansas, October 2018
“Topological Semimetals and Topological Superconductors”
2. University of Missouri, Columbia, Missouri, January 2018
“Exploring Novel Topological Materials by DFT and ARPES”
3. The National Center for Theoretical Sciences (NCTS) Annual Theory Meeting, Hsinchu, Taiwan, January 2018
“Exploring Topological Phases of Condensed Matter by Angle-Resolved Photoemission Spectroscopy”
4. University of Missouri-Kansas City, Kansas City, Missouri, October 2017
“Novel Topological Phases of Condensed Matter: Nodal Semimetals and Topological Superconductors”
5. Missouri S&T, Rolla, Missouri, September 2017
“Novel Topological Phases of Condensed Matter: Nodal Semimetals and Topological Superconductors”
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6. Victoria University of Wellington, Wellington, New Zealand, February 2017
“Topological Semimetallic Phases of Condensed Matter: Weyl and Nodal Line”
7. 8th International Conference on Advanced Materials and Nanotechnology (AMN8), Queenstown, New Zealand,
February 2017
“Exploring Fundamental Physics in Topological Phases of Condensed Matter”
8. University of Canterbury, Christchurch, New Zealand, February 2017
“Topological Semimetallic Phases of Condensed Matter: Weyl and Nodal Line”
9. South University of Science and Technology of China, Shenzhen, 2016
“Experimental Study of Topological Phases in Condensed Matter”
10. University of Science and Technology Beijing (USTB), Beijing, 2016
“Experimental Study of Topological Phases in Condensed Matter”
11. National Tsing Hua University, Hsinchu, Taiwan, 2016
“Experimental Study of Topological Phases in Condensed Matter”
12. International Conference on Electronic Materials (ICEM), Singapore, 2016
“Exploring Topological Physics in Condensed Matter”
13. Nankai University, Tianjin, China, 2016
“Experimental Study of Topological Phases in Condensed Matter”
14. University of Missouri, Columbia, MO, 2016
“Exploring Fundamental Physics in Topological Phases of Condensed Matter”
15. University of Illinois at Urbana-Champaign, Urbana, IL, 2014
“Realization of a quantum spin Hall heterostructure in the quantum dimension regime”
16. Shanghai Jiaotong Univeristy, Shanghai, China, 2014
“Angle-resolved photoemission studies of low dimensional topological materials”
17. Princeton University, Princeton, NJ, 2013
“Angle-resolved photoemission studies of topological thin films”
18. Kavli Fellowship Talk, Kavli Institute at Cornell University, Ithaca, NY, 2013
“Angle-resolved photoemission studies of topological thin films”
19. Lawrence Berkeley National Laboratory, Berkeley, CA, 2012
“Angle-resolved photoemission studies of topological thin films”
20. Nottingham Contest Talk, the 72nd Physical Electronic Conference, Dallas, Texas, 2012
“Angle-resolved photoemission studies of topological Sb thin films”
21. International Workshop, CORPES, Berkeley, California, 2011
“Passage from spin-polarized surface states to unpolarized quantum well states in Sb films”
22. Aladdin Lamp Talk, Users' Meeting, Synchrotron Radiation Center, Wisconsin, 2010
“Photoemission Study of Epitaxial Bi and Sb Films”
Publications
1. T.-R. Chang, I. Pletikosic, T. Kong, Guang Bian, A. Huang, S. K. Kushwaha, B. Sinkovic, H.-T. Jeng, W. Xie,
and R. J. Cava
Advanced Science 1800897 (2018), “Realization of a Type-II Nodal-Line Semimetal in Mg3Bi2”.
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2. I. Belopolski, D. S. Sanchez, G. Chang, K. Manna, B. Ernst, S.-Y. Xu, S. S. Zhang, H. Zheng, J. Yin, B. Singh,
Guang Bian, D. Multer, X. Zhou, S.-M. Huang, B. Wang, A. Bansil, H. Lin, C. Felser, and M. Z. Hasan
arXiv:1712.09992 (2018), “A Novel Topological Ferromagnet”.
3. Guang Bian, T.-R. Chang, X. Wang, H. Lin, T. Miller, and T.-C. Chiang
arXiv:1710.00908 (2018), “Band Topology and Dichroic Signature of Bismuth”.
4. J.-X. Yin, S. Zhang, H. Li, K. Jiang, G. Chang, B. Zhang, B. Lian, C. Xiang, I. Belopolski, H. Zheng, T.
Cochran, S.-Y. Xu, G. Bian, K. Liu, T.-R. Chang, H. Lin, Z.-Y. Lu, Z. Wang, S. Jia, W. Wang, and M. Z. Hasan
Nature 562, 91 (2018), “Giant and anisotropic many-body spin–orbit tunability in a strongly correlated kagome
magnet”.
5. A. Huang, A. Smith, M. Schwinn, Q. Lu, T.-R. Chang, W. Xie, H.-T. Jeng, and Guang Bian
Phys. Rev. Materials 2, 054205 (2018), “Multiple Topological Electronic Phases in Superconductor MoC”.
6. C.-Z. Xu, X. Wang, P. Chen, D. Flötotto, J. A. Hlevyack, M.-K. Lin, Guang Bian, S.-K. Mo, and T.-C. Chiang
Phys. Rev. Materials 2, 064002 (2018), “Experimental and Theoretical Electronic Structure of Ultrathin NbSe2
Films”.
7. X. Gui, L. Xing, X.-X. Wang, Guang Bian, R. Jin and W. Xie
Inorganic Chemistry 57, 1698 (2018), “Pt-Bi Antibonding Interaction: The Key Factor for Superconductivity in
Monoclinic BaPt2Bi2”.
8. T. Maerkl, P. Kowalczyk, M. Le Ster, I. Mahajan, H. Pirie, Z. Ahmed, Guang Bian, X. Wang, T.-C. Chiang,
and S. Brown
2D Materials 5, 011002 (2018), “Engineering Multiple Topological Phases in Nanoscale Van der Waals
Heterostructures: Realisation of α-Antimonene”.
9. G. Chang, B. Singh, S.-Y. Xu, Guang Bian, S.-M. Huang, C.-H. Hsu, I. Belopolski, N. Alidoust, D. S. Sanchez,
H. Zheng, H. Lu, X. Zhang, Y. Bian, T.-R. Chang, H.-T. Jeng, A. Bansil, H. Hsu, S. Jia, T. Neupert, H. Lin, and
M. Z. Hasan
Phys. Rev. B 97, 041104(R) (2018), “Magnetic and noncentrosymmetric Weyl fermion semimetals in the
RAlGe family of compounds (R = rare earth)”.
10. C.-Z. Xu, Y.-H. Chan, P. Chen, X. Wang, D. Floetotto, J. A. Hlevyack, Guang Bian, S.-K. Mo, M.-Y. Chou and
T.-C. Chiang
Phys. Rev. B 97, 035112 (2018), “Gapped Electronic Structure of Epitaxial Stanene on InSb(111)”.
11. C.-K. Chiu, Guang Bian, H. Zheng, J. Yin, S. S. Zhang, S.-Y. Xu, and M. Z. Hasan
EPL 123, 47005 (2018), “Chiral Majorana Fermion Modes on the Surface of Superconducting Topological
Insulators”.
12. X. Wang, C. Xu, H. Hu, P. Wang, Guang Bian, W. Tan, S. A. Brown, and T.-C. Chiang
EPL 119, 27002 (2017), “Topological Phase Stability and Transformation of Bismuthene”.
13. H. Zheng, G. Chang, S.-M. Huang, C. Guo, X. Zhang, S. Zhang, J. Yin, S.-Y. Xu, I. Belopolski, N. Alidoust, D.
S. Sanchez, Guang Bian, T.-R. Chang, T. Neupert, H.-T. Jeng, S. Jia, H. Lin, and M. Z. Hasan
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Phys. Rev. Lett. 119, 196403 (2017), “Mirror Protected Dirac Fermions on a Weyl Semimetal NbP Surface”.
14. I. Belopolski, P. Yu, D. Sanchez, Y. Ishida, T.-R. Chang, S. Zhang, S.-Y. Xu, H. Zheng, G. Chang, Guang Bian,
H.-T. Jeng, T. Kondo, Hsin Lin, Z. Liu, S. Shin, and M. Z. Hasan
Nature Commun. 8:942 (2017), “Signatures of a time-reversal symmetric Weyl semimetal with only four Weyl
points”.
15. P. J. Kowalczyk, O. Mahapatra, M. Le Ster, S. A. Brown, Guang Bian, X. Wang, and T.-C. Chiang
Phys. Rev. B 96, 205434 (2017), “Single atomic layer allotrope of bismuth with rectangular symmetry”.
16. Guang Bian, T.-R. Chang, A. Huang, Y. Li, H.-T. Jeng, D. J. Singh, R. J. Cava, and W. Xie
Phys. Rev. Materials 1, 021201(R) (2017), “Prediction of Nontrivial Band Topology and Superconductivity in
Mg2Pb”.
17. X. Wang, Guang Bian, C.-Z. Xu, P. Wang, H. Zhi, W. Zhou, S. Brown, and T.-C. Chiang
Nanotechnology 28, 395706 (2017), “Topological phases in double layers of bismuthene and antimonene”.
18. S.-Y. Xu, N. Alidoust, G. Chang, H. Lu, B. Singh, I. Belopolski, D. S. Sanchez., X. Zhang, Guang Bian, H.
Zheng, M.-A. Husanu, Y. Bian, S.-M. Huang, C.-H. Hsu, T.-R. Chang, H.-T. Jeng, A. Bansil, T. Neupert, V. N.
Strocov, H. Lin, S. Jia, and M. Z. Hasan
Science Advances 3, e1603266 (2017), “Discovery of Lorentz-violating type II Weyl fermions in LaAlGe”.
19. G. Chang, S.-Y. Xu, S.-M. Huang, D. S. Sanchez, C.-H. Hsu, Guang Bian, Z.-M. Yu, I. Belopolski, N.
Alidoust, H. Zheng, T.-R. Chang, H.-T. Jeng, S. A Yang, T. Neupert, H. Lin, M Z. Hasan
Sci. Rep. 7: 1688 (2017), “Nexus fermions in topological symmorphic crystalline metals”.
20. T.-R. Chang, S.-Y. Xu, D. S. Sanchez, W.-F. Tsai, S.-M. Huang, G. Chang, C.-H. Hsu, Guang Bian, I.
Belopolski, Z.-M. Yu, S. A. Yang, T. Neupert, H.-T. Jeng, H. Lin, and M. Z. Hasan
Phys. Rev. Lett. 119, 026404 (2017), “Type-II Symmetry-Protected Topological Dirac Semimetals”.
21. M. Schwinn, Q. Lu, and Guang Bian
Proceedings of the AMN8 conference in International Journal of Nanotechnology (2017), “Electronic and
structural properties of few-layer antimonene films”.
22. I. Belopolski, S.-Y. Xu, N. Koirala, C. Liu, Guang Bian, V. N. Strocov, G. Chang, M. Neupane, N. Alidoust, D.
Sanchez, H. Zheng, M. Brahlek, V. Rogalev, T. Kim, N. C. Plumb, C. Chen, F. Bertran, P. Le Fèvre, A.
Taleb-Ibrahimi, M.-C. Asensio, M. Shi, H. Lin, M. Hoesch, S. Oh, M. Z. Hasan
Science Advances 3:e1501692 (2017), “A novel artificial condensed matter lattice and a new platform for
one-dimensional topological phases”.
23. W. Xie, L. Gustin, and Guang Bian
Inorg. Chem. 56, 5165 (2017), “New 111-type Semiconductor ReGaSi Follows 14e- Rules”.
24. Guang Bian, X. Wang, P. J. Kowalczyk, T. Maerkl, S. A. Brown, and T.-C. Chiang
Journal of Physics and Chemistry of Solids DOI:10.1016/j.jpcs.2017.07.027 (2017), “Survey of Electronic
Structure of Bi and Sb Thin Films by First-Principles Calculations and Photoemission Measurements”.
25. Guang Bian, T.-F. Chung, C.-Y. Chen, C. Liu, T.-R. Chang, T. Wu, I. Belopolski, H. Zheng, S.-Y. Xu, D. S.
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Sanchez, N. Alidoust, J. Pierce, B. Quilliams, P. P. Barletta, S. Lorcy, J. Avila, G. Chang, H. Lin, H.-T. Jeng,
M.-C. Asensio, Y. P. Chen, and M. Z. Hasan
2D Materials 3, 021009 (2016), “Experimental Observation of Two Massless Dirac-Fermion Gases in
Graphene-Topological Insulator Heterostructure”.
26. H. Zheng, Guang Bian, G. Chang, H. Lu, S.-Y. Xu, G. Wang, T.-R. Chang, S. Zhang, I. Belopolski, N.
Alidoust, D. S. Sanchez, F. Song, H.-T. Jeng, N. Yao, A. Bansil, S. Jia, H. Lin, and M. Z. Hasan
Phys. Rev. Lett. 117, 266804 (2016), “Atomic-scale visualization of quasiparticle interference on a type-II Weyl
semimetal surface”.
27. G. Chang, S.-Y. Xu, H. Zheng, B. Singh, C.-H. Hsu, Guang Bian, N. Alidoust, I. Belopolski, D. S. Sanchez, S.
Zhang, H. Lin, and M. Z. Hasan
Sci. Rep. 6, 38839 (2016), “Room-temperature magnetic topological Weyl fermion and nodal line semimetal
states in half-metallic Heusler Co2TiX (X=Si, Ge, or Sn)”.
28. Y. Li, Guang Bian, and D. J. Singh
AIP Advances 6, 125108 (2016), “Identification and properties of the non-cubic phases of Mg2Pb”.
29. G. Chang, S.-Y. Xu, D. S. Sanchez, S.-M. Huang, C.-C. Lee, T.-R. Chang, Guang Bian, H. Zheng, I.
Belopolski, N. Alidoust, H.-T. Jeng, A. Bansil, H. Lin, and M. Z. Hasan
Science Advances 2:e1600295 (2016), “A strongly robust topological Weyl fermion semimetal state in Ta3S2”.
30. I. Belopolski, D. S. Sanchez, Y. Ishida, X. Pan, P. Yu, S.-Y. Xu, G. Chang, T.-R. Chang, H. Zheng, N. Alidoust,
Guang Bian, M. Neupane, S.-M. Huang, C.-C. Lee, Y. Song, H. Bu, G. Wang, S. Li, G. Eda, H.-T. Jeng, T.
Kondo, H. Lin, Z. Liu, F. Song, S. Shin, and M. Z. Hasan
Nature Commun. 7:13643 (2016), “Discovery of a new type of topological Weyl fermion semimetal state in
MoxW1−xTe2”.
31. T.-R.Chang, P.-J. Chen, Guang Bian (co-1st), R. Sankar, S.-Y. Xu, B. Wang, H. Zheng, F. Chou, H.-T. Jeng, A.
Bansil, H. Lin, and M. Z. Hasan
Phys. Rev. B 93, 245130 (2016), “Topological Dirac Surface States and Pairing Correlations in the
Non-Centrosymmetric Superconductor PbTaSe2”.
32. N. Alidoust, C. Liu, S.-Y. Xu, I. Belopolski, T. Qi, M. Zeng, D. S. Sanchez, H. Zheng, G. Bian, M. Neupane,
Y.-T. Liu, S. D. Wilson, H. Lin, A. Bansil, G. Cao, and M. Z. Hasan
Phys. Rev. B 93, 245132 (2016), “Observation of metallic surface states in the strongly correlated
Kitaev-Heisenberg candidate Na2IrO3”.
33. Guang Bian, T.-R. Chang, H. Zheng, S. Velury, S.-Y. Xu, T. Neupert, C.-K. Chiu, D. S. Sanchez, I. Belopolski,
N. Alidoust, P.-J. Chen, G. Chang, A. Bansil, H.-T. Jeng, H. Lin, and M. Z. Hasan
Phys. Rev. B 93, 121113(R) (2016), “Drumhead Surface States and Topological Nodal-Line Fermions in
TlTaSe2”.
34. Guang Bian, T.-R. Chang, R. Sankar, S.-Y. Xu, H. Zheng, T. Neupert, C.-K. Chiu, S.-M. Huang, G. Chang, I.
Belopolski, D. S. Sanchez, M. Neupane, N. Alidoust, C. Liu, B. Wang, H.-T. Jeng, A. Bansil, F. Chou, H. Lin,
and M. Z. Hasan
Nature Commun. 7:10556 (2016), “Topological Nodal-Line Fermions in the Non-Centrosymmetric Metal
PbTaSe2”.
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35. Guang Bian, Z. F. Wang, X. Wang, C. Xu, S.-Y. Xu, T. Miller, M. Z. Hasan, F. Liu, and T.-C. Chiang
ACS Nano 10, 3859 (2016), “Engineering electronic structure of a 2D topological insulator Bi(111) bilayer on
Sb nanofilms by quantum confinement effect”.
36. I. Belopolski, S.-Y. Xu, Y. Ishida, X. Pan, P. Yu, D. S. Sanchez, H. Zheng, M. Neupane, N. Alidoust, G.
Chang, T.-R. Chang, Y. Wu, Guang Bian, S.-M. Huang, C.-C. Lee, D. Mou, L. Huang, Y. Song, B. Wang, G.
Wang, Y.-W. Yeh, N. Yao, J. E Rault, P. Le Fèvre, F. Bertran, H.-T. Jeng, T. Kondo, A. Kaminski, H. Lin, Z. Liu,
F. Song, S. Shin, and M. Z. Hasan
Phys. Rev. B 94, 085217 (2016), “Fermi arc electronic structure and Chern numbers in the type-II Weyl
semimetal candidate MoxW1−xTe2”.
37. X. Wang, P. Wang, Guang Bian and T.-C. Chiang
EPL 115, 37010 (2016), “Topological phase transitions in stanene and stanene-like systems by scaling the
spin-orbit coupling”.
38. C.-L. Zhang, Z. Yuan, Guang Bian, S.-Y. Xu, X. Zhang, M. Z. Hasan, and S. Jia
Phys. Rev. B 93, 054520 (2016), “Superconducting properties in single crystals of the topological nodal
semimetal PbTaSe2”
39. H. Zheng, S.-Y. Xu, Guang Bian (equal contribution), C. Guo, G. Chang, D. S. Sanchez, C.-C. Lee, S.-M.
Huang, X. Zhang, R. Sankar, I. Belopolski, N. Alidoust, T.-R. Chang, F. Wu, T. Neupert, F. Chou, H.-T.
Jeng, N. Yao, A. Bansil, S. Jia, H. Lin, M. Z. Hasan
ACS Nano 10, 1378 (2015), “Atomic Scale Visualization of Quantum Interference on a Weyl semimetal
NbP(001) surface”.
40. J. Ren, L Fu, Guang Bian, J. Su, H. Zhang, S. Velury, R. Yukawa, L. Zhang, T. Wang, G. Zha, R. Guo, T. Miller,
M. Z. Hasan, and T.-C. Chiang
ACS Appl. Mater. Interfaces 8, 726 (2016), “An Effective Approach to Improving CdTe(111)A Surface by
Molecular-Beam-Epitaxy Growth of Tellurium Monolayer”.
41. S.-M. Huang, S.-Y. Xu, I. Belopolski, C.-C. Lee, G. Chang, B. Wang, N. Alidoust, M. Neupane, H. Zheng, D.
Sanchez, A. Bansil, Guang Bian, H. Lin, and M. Z. Hasan
PNAS 113, 1180 (2016), “A new type of Weyl semimetal with quadratic double Weyl fermions in SrSi2”.
42. T.-R. Chang, S.-Y. Xu, G. Chang, C.-C. Lee, S.-M. Huang, B. Wang, Guang Bian, H. Zheng, D. S. Sanchez, I.
Belopolski, N. Alidoust, M. Neupane, A. Bansil, H.-T. Jeng, H. Lin, M. Zahid Hasan
Nature Commun. 7:10639 (2016), “Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1−xTe2”.
43. C. Zhang, S.-Y. Xu, I. Belopolski, Z. Yuan, Z. Lin, B. Tong, N. Alidoust, C.-C. Lee, S.-M. Huang, H. Lin, M.
Neupane, D. S. Sanchez, H. Zheng, Guang Bian, J. Wang, C. Zhang, T. Neupert, M. Z. Hasan, S. Jia
Nature Commun. 7:10735 (2016), “Observation of the Adler-Bell-Jackiw chiral anomaly in a Weyl semimetal”.
44. G. Chang, S.-Y. Xu, H. Zheng, C.-C. Lee, S.-M. Huang, I. Belopolski, D. S. Sanchez, Guang Bian, N. Alidoust,
T.-R. Chang, C.-H. Hsu, H.-T. Jeng, A. Bansil, H. Lin, M. Z. Hasan
Phys. Rev. Lett. 116, 066601 (2016), “Signatures of Fermi Arcs in the Quasiparticle Interferences of the Weyl
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Semimetals TaAs and NbP”.
45. I. Belopolski, S.-Y. Xu, D. S. Sanchez, G. Chang, C. Guo, M. Neupane, H. Zheng, C.-C. Lee, S.-M. Huang,
Guang Bian, N. Alidoust, T.-R. Chang, B. Wang, X. Zhang, A. Bansil, H.-T. Jeng, H. Lin, S. Jia, M. Z. Hasan
Phys. Rev. Lett. 116, 066802 (2016), “Criteria for Directly Detecting Topological Fermi Arcs in Weyl
Semimetals”.
46. S.-Y. Xu, I. Belopolski, D. S. Sanchez, M. Neupane, G. Chang, K. Yaji, Z. Yuan, C. Zhang, K. Kuroda, Guang
Bian, C. Guo, H. Lu, Y. Feng, T.-R. Chang, N. Alidoust, H. Zheng, C.-C. Lee, S.-M. Huang, C.-H. Hsu,
Horng-Tay Jeng, A. Bansil, A. Alexandradinata, T. Neupert, T. Kondo, S. Shin, H. Lin, S. Jia, M Z. Hasan Phys.
Rev. Lett. 116, 096801 (2016), “Spin polarization and texture of the Fermi arcs in the Weyl Fermion semimetal
TaAs”.
47. Guang Bian, C. Xu, T.-R. Chang, X. Wang, S. Velury, J. Ren, H. Zheng, H.-T. Jeng, T. Miller, M. Z. Hasan, and
T.-C. Chiang
Phys. Rev. B 92, 241401(R) (2015), “Direct transition resonance in atomically uniform topological Sb(111) thin
films”.
48. C. Liu, Guang Bian, T.-R. Chang, K. Wang, S.-Y. Xu, I. Belopolski, I. Miotkowski, H. Cao, K. Miyamoto, C.
Xu, C. E. Matt, T. Schmitt, N. Alidoust, M. Neupane, H.-T. Jeng, H. Lin, A. Bansil, V. N. Strocov, M. Bissen, A.
V. Fedorov, X. Xiao, T. Okuda, Y. P. Chen, and M. Z. Hasan
Phys. Rev. B 92, 115436 (2015), “Tunable spin helical Dirac quasiparticles on the surface of three dimensional
HgTe”.
49. S.-Y. Xu, I. Belopolski, D. S. Sanchez, C. Zhang, G. Chang, C. Guo, Guang Bian, Z. Yuan, H. Lu, T.-R. Chang, P.
P. Shibayev, M. L. Prokopovych, N. Alidoust, H. Zheng, C.-C. Lee, S.-M. Huang, R. Sankar, F. Chou, C.-H. Hsu,
H.-T. Jeng, A. Bansil, T. Neupert, V. N. Strocov, H. Lin, S. Jia, and M. Z. Hasan
Science Advances 1, 1501092 (2015), “Experimental discovery of a topological Weyl semimetal state in TaP”.
50. M. Z. Hasan, S.-Y.Xu, and Guang Bian
Phys. Scr. T164 014001 (2015), “Topological Insulators, Helical Topological Superconductors and Weyl
Fermion Semimetals.” Review and Perspective on Topological Phases in Condensed Matter.
51. S.-Y. Xu, I. Belopolski, N. Alidoust, M. Neupane, Guang Bian, C. Zhang, R. Sankar, G. Chang, Z. Yuan, C.-C.
Lee, S.-M. Huang, H. Zheng, J. Ma, D. S. Sanchez, B. Wang, A. Bansil, F. Chou, P. P. Shibayev, H. Lin, S. Jia,
and M. Z. Hasan
Science 349, 613 (2015), “Discovery of a Weyl Fermion semimetal and topological Fermi arcs”.
52. S.-Y. Xu, N. Alidoust, I. Belopolski, Z. Yuan, Guang Bian, T.-R. Chang, H. Zheng, V. Strocov, D. S. Sanchez, G.
Chang, C. Zhang, D. Mou, Y. Wu, L. Huang, C.-C. Lee, S.-M. Huang, B. Wang, A. Bansil, H.-T. Jeng, T. Neupert,
A. Kaminski, H. Lin, S. Jia, and M. Z. Hasan
Nature Physics 11, 748 (2015), “Discovery of a Weyl Fermion state with Fermi arcs in niobium arsenide”.
53. M. Neupane, S.-Y. Xu, Y. Ishida, S. Jia, B. M. Fregoso, C. Liu, I. Belopolski, Guang Bian, N. Alidoust, T.
Durakiewicz, V. Galitski, S. Shin, R. J. Cava, and M. Z. Hasan
9
Phys. Rev. Lett 115, 116801 (2015), “Gigantic Surface Lifetime of an Intrinsic Topological Insulator”.
54. M. Neupane, N. Alidoust, I. Belopolski, Guang Bian, S.-Y. Xu, D.-J. Kim, P. P. Shibayev, D. S. Sanchez, H.
Zheng, T.-R. Chang, H.-T. Jeng, P. S. Riseborough, H. Lin, A. Bansil, T. Durakiewicz, Z. Fisk, and M. Z. Hasan
Phys. Rev. B 92, 104420 (2015), “Fermi surface topology and hot spot distribution in the Kondo lattice system
CeB6”.
55. C.-C. Lee, S.-Y. Xu, S.-M. Huang, D. S. Sanchez, I. Belopolski, G. Chang, Guang Bian, N. Alidoust, H. Zheng,
M. Neupane, B. Wang, A. Bansil, M. Z. Hasan, and H. Lin
Phys. Rev. B 92, 235104 (2015), “Fermi surface interconnectivity and topology in Weyl fermion semimetals
TaAs, TaP, NbAs, and NbP”.
56. M. Neupane, S.-Y. Xu, R. Sankar, Q. Gibson, Y. J. Wang, I. Belopolski, N. Alidoust, Guang Bian, P. P.
Shibayev, D. S. Sanchez, Y. Ohtsubo, A. Taleb-Ibrahimi, S. Basak, W.-F. Tsai, H. Lin, T. Durakiewicz, R. J.
Cava, A. Bansil, F. C. Chou, and M. Z. Hasan
Phys. Rev. B 92, 075131 (2015), “Topological phase diagram and saddle point singularity in a tunable
topological crystalline insulator”.
57. S.-Y. Xu, C. Liu, I. Belopolski, S. K. Kushwaha, R. Sankar, J. W. Krizan, T.-R. Chang, C. M. Polley, J. Adell, T.
Balasubramanian, K. Miyamoto, N. Alidoust, Guang Bian, M. Neupane, H.-T. Jeng, C.-Y. Huang, W.-F. Tsai, T.
Okuda, A. Bansil, F. C. Chou, R. J. Cava, H. Lin, and M. Z. Hasan
Phys. Rev. B 92, 075115 (2015), “Lifshitz transition and Van Hove singularity in a three-dimensional
topological Dirac semimetal”.
58. M. Neupane, S.-Y. Xu, N. Alidoust, R. Sankar, I. Belopolski, D. S. Sanchez, Guang Bian, C. Liu, T.-R. Chang,
H.-T. Jeng, B. Wang, G. Chang, H. Lin, A. Bansil, F. Chou, and M. Zahid Hasan
Phys. Rev. B 91, 241114(R), “Surface versus bulk Dirac state tuning in a three-dimensional topological Dirac
semimetal”.
59. S.-Y. Xu, M. Neupane, I. Belopolski, C. Liu, N. Alidoust, Guang Bian, S. Jia, G. Landolt, B. Slomski, H. Dil, P.
Shibayev, S. Basak, T.-R. Chang, H.-T. Jeng, R. Cava, H. Lin, A. Bansil, and M. Z. Hasan
Nature Commun. 6:6870 (2015), “Unconventional transformation of spin-Dirac phase across a topological
quantum phase transition”.
60. X. Wang, Guang Bian, P. Wang and T.-C. Chiang
Phys. Rev. B 91, 125103 (2015), “Dirac Semimetal Films as Spin Conductors on Topological Substrates”.
61. J. Ren, L. Fu, Guang Bian, M. Wong, T. Wang, G. Zha, W. Jie, T. Miller, M. Z. Hasan and T.-C. Chiang
Phy. Rev. B 91, 235303 (2015), “Spectroscopic studies of CdTe(111) bulk and surface electronic structure”.
62. M. Neupane, S.-Y. Xu, N. Alidoust, Guang Bian, D.-J. Kim, C. Liu, I. Belopolski, T.-R. Chang, H.-T. Jeng, T.
Durakiewicz, H. Lin, A. Bansil, Z. Fisk, and M. Z. Hasan
Phy. Rev. Lett. 114, 016403 (2015), “Observation of non-Kondo-like electronic structure in strongly correlated
electron system YbB6”.
63. P.J. Kowalczyk, O.Mahapatra, D. Belić, S.A. Brown, Guang Bian, T.-C. Chiang
10
Phys. Rev. B 91, 045434 (2015), “Origin of the Moire pattern in thin Bi films deposited on HOPG”.
64. S.-M. Huang, S.-Y. Xu, I. Belopolski, C.-C. Lee, G. Chang, B. Wang, N. Alidoust, Guang Bian, M. Neupane, A.
Bansil, H. Lin, and M. Z. Hasan
Nature Commun. 6:7373 (2015), “A Weyl Fermion semimetal with surface Fermi arcs in the transition metal
monopnictide TaAs class”.
65. M.-H. Wong, Guang Bian, T. Miller and T.-C. Chiang
EuroPhys. Lett., 109, 17005 (2015), “Topological Phase Transitions in Antimony without Gap Parity Reversal”.
66. Guang Bian, T. Miller and T.-C. Chiang
J. Electron Spectros. Relat. Phenom. 201, 36 (2015), “The Rashba splitting and dichroism signature of surface
states in Bi/Ag surface alloy”.
67. S.-Y. Xu, C. Liu, S. K. Kushwaha, R. Sankar, J. W. Krizan, I. Belopolski, M. Neupane, Guang Bian, N.
Alidoust, T.-R. Chang, H.-T. Jeng, C.-Y. Huang, W.-F. Tsai, H. Lin, P. P. Shibayev, F. Chou, R. J. Cava, and M.
Z. Hasan
Science 347, 294 (2015), “Observation of Fermi arc surface states in a topological metal”.
68. Guang Bian, X. Wang, T. Miller, T.-C. Chiang, P.J. Kowalczyk, O. Mahapatra, and S.A. Brown
Phys. Rev. B 90,195409 (2014), “First-principles and spectroscopic studies of Bi(110) films: thickness
dependent Dirac modes and property oscillations”.
69. J. Ren, Guang Bian, L. Fu, C. Liu, T. Wang, G. Zha, W. Jie, M. Neupane, T. Miller, M. Z. Hasan, and T.-C.
Chiang
Phys. Rev. B 90,205211 (2014), “Spectroscopic Study of Quantum Spin Hall Parent Compound CdTe in
Comparison with HgTe”.
70. S.-Y. Xu, N. Alidoust, I. Belopolski, A. Richardella, C. Liu, M. Neupane, Guang Bian, S.-H. Huang, R. Sankar,
C. Fang, B. Dellabetta, W. Dai, Q. Li, M. J. Gilbert, F. Chou, N. Samarth, and M. Z. Hasan
Nature Physics 10, 943 (2014), “Momentum-space imaging of Cooper pairing in a half-Dirac-gas topological
superconductor.”
71. S.-Y. Xu, C. Liu, A. Richardella, I. Belopolski, N. Alidoust, M. Neupane, Guang Bian, N. Samarth, M. Zahid
Hasan
Phys. Rev. B 90, 085128 (2014), “Fermi-level electronic structure of a topological insulator/cuprate
superconductor based heterostructure in the superconducting proximity effect regime”.
72. N. Alidoust, Guang Bian, S.-Y. Xu, R. Sankar, M. Neupane, C. Liu, I. Belopolski, D.X. Qu, J. D. Denlinger,
F.-C. Chou, M. Z. Hasan
Nature Commun. 5, 4673 (2014), “Observation of monolayer valence band spin-orbit effect and induced
quantum well states in MoX2”. (G.B. performed all the DFT band calculation and ARPES spectral simulation.)
73. P. J. Kowalczyk, O.Mahapatra, S.A. Brown, Guang Bian, T.-C. Chiang
Surface Science 621, 140 (2014), “STM Driven Modification of Bismuth Nanostructures”.
74. M. Neupane, S.-Y. Xu, R. Sankar, N. Alidoust, Guang Bian, C. Liu, I. Belopolski, T.-R. Chang, H.-T. Jeng, H.
11
Lin, A. Bansil, Fangcheng Chou, M. Z. Hasan
Nature Commun. 5, 3786 (2014), “Observation of a Topological 3D Dirac Semimetal Phase in High-Mobility
Cd3As2 and Related Materials”.
75. M. Neupane, A. Richardella, J. Sanchez-Barriga, S.-Y. Xu, N. Alidoust, I. Belopolski, C. Liu, Guang Bian, D.
M. Zhang, D. Marchenko, A. Varykhalov, O. Rader, M. Leandersson, T. Balasubramanian, T.-R. Chang, H.-T.
Jeng, S. Basak, H. Lin, A. Bansil, N. Samarth, M. Z. Hasan
Nature Commun. 5, 3841 (2014), “Tunneling Tuned Spin Modulations in Ultrathin Topological Insulator
Films”.
76. M. Neupane, S. Basak, N. Alidoust, S.-Y. Xu, C. Liu, I. Belopolski, Guang Bian, J. Xiong, H. Ji, S. Jia, S.-K.
Mo, M. Bissen, M. Severson, H. Lin, N. P. Ong, T. Durakiewicz, R. J. Cava, A. Bansil, M. Z. Hasan
Phys. Rev. B 88, 165129 (2013), “Oscillatory Surface Dichroism of an Insulating Topological Insulator
Bi2Te2Se”.
77. Guang Bian, Xiaoxiong Wang, T. Miller, and T.-C. Chiang
Phys. Rev. B 88, 085427 (2013), “Origin of the Giant Rashba Spin Splitting in Bi/Ag Surface Alloys”.
78. Xiaoxiong Wang, Guang Bian, T. Miller, and T.-C. Chiang
Phys. Rev. B 87, 235113 (2013), “Topological Quantum Well Resonances in Metal Overlayers”.
79. Y. Liu, H.-H. Wang, G. Bian, Z. Zhang, S. S. Lee, P. A. Fenter, J. Z. Tischler, H. Hong, and T.-C. Chiang
Phys. Rev. Lett. 110, 226103 (2013), “Interfacial Bonding and Structure of Bi2Te3 Topological Insulator Films
on Si(111) Determined by Surface X-ray Scattering”.
80. Guang Bian, X. Wang, T. Miller, and T.-C. Chiang
EuroPhys. Lett. 101, 27004 (2013), “Topological Phase Transition and Dirac Fermion Transfer in Bi2Se3 Films”.
This article has been selected in EPL Research Highlights 2013.
81. X. Wang, Guang Bian, T. Miller, and T.-C. Chiang
Phys. Rev. B 87, 035109 (2013), “Topological Spin-Polarized Electron Layer above the Surface of
Ca-terminated Bi2Se3”.
82. P. J. Powel, O. Mahapatra, S. A. Brown, Guang Bian, X. Wang, and T.-C. Chiang
Nano letters 13, 43 (2013), “Electronic Size Effects in Three-Dimensional Nanostructures”.
83. Guang Bian, Xiaoxiong Wang, Yang Liu, T. Miller, and T.-C. Chiang
Phys. Rev. Lett. 108, 176401 (2012), “Interfacial Protection of Topological Surface States in Ultrathin Sb
Films”.
84. Yang Liu, Guang Bian, Thomas Miller, Mark Bissen, and Tai-Chang Chiang
Phys. Rev. B 85, 195442 (2012), “Topo. Limit of Ultrathin Quasi-freestanding Bi2Te3 Films Grown on Si(111)”.
85. Guang Bian, Longxiang Zhang, Yang Liu, Thomas Miller, and Tai-Chang Chiang
Phys. Rev. Lett. 108, 186403 (2012), “Detecting Spin Texture of Bi/Ag Surface Alloy by Circular Angular
Resolved Photoemission Spectroscopy”.
86. X. Wang, Guang Bian, T. Miller, and T.-C. Chiang
12
Phys. Rev. Lett. 108, 096404 (2012), “Fragility of Topological Surface States and Robustness of Topological
Order in Bi2Se3 against Oxidation”.
87. Guang Bian, Xiaoxiong Wang, Yang Liu, T. Miller, and T.-C. Chiang
Phys. Rev. B 84, 235414 (2011), “Symmetry-Constrained Reorganization of Dirac Cones in Topological
Insulators by Surface Modification”.
88. Yang Liu, Guang Bian, Thomas Miller, and Tai-Chang Chiang
Phys. Rev. Lett. 107, 166803 (2011), “Visualizing Electronic Chirality and Berry Phases in Graphene Systems
Using Photoemission with Circularly Polarized Light”. This article is chosen as a PRL Editors' Suggestion.
89. Guang Bian, Thomas Miller, and Tai-Chang Chiang
Phys. Rev. Lett. 107, 036802 (2011), “Passage from spin-polarized surface states to unpolarized quantum well
states in topologically nontrivial Sb films”. Cover image of Phys. Rev. Lett. Vol. 107, Issue 3 (2011).
90. Yang Liu, Longxiang Zhang, Mathew Brinkley, Guang Bian, Thomas Miller, and Tai-Chang Chiang
Phys. Rev. Lett. 105, 136804 (2010), “Phonon-induced gaps in graphite/graphene Observed by angle resolved
photoemission spectroscopy”.
91. Guang Bian, Thomas Miller, and Tai-Chang Chiang
Phys. Rev. B 80, 245407 (2009), “Electronic structure and surface mediated metastability of Bi films on
Si(111)-7×7 studied by angle resolved photoemission spectroscopy”.
92. Guang Bian, Mike Bisset, Nicholas Kersting, Y. Liu, and X. Wang
Eur. Phys. J. C 53 3 429 (2008), “Wedgebox analysis of four-lepton events from neutralino pair production at
the LHC”.