Publications

38 Publications (updated 12/2022)

= Phys. Rev. Lett. x 10 + Science x 2 + Nature Communications x 4 + 2D Materials x 1 + Phys. Rev. Res. x 2 + Phys. Rev. B x 9 + arXiv preprint x 8 + Book Chapters x 2

* Corresponding Authors

# Contributed Equally


2023


  1. L.-H. Hu, R.-X. Zhang*, “Topological Superconducting Vortex From Trivial Electronic Bands”, arXiv:2204.03175 (2022) [Accepted by Nature Communications]


2022


  1. L.-H. Hu, X. Wu, C.-X. Liu, R.-X. Zhang*, "Competing Vortex Topologies in Iron-based Superconductors", Phys. Rev. Lett. 129, 277001 (2022)

  2. H.-R. Zhang, J.-H. Zhang, Z.-C. Gu*, R.-X. Zhang*, S. Yang*, "Intrinsically Interacting Higher-Order Topological Superconductors", arXiv: 2212.13013 (2022)

  3. S.-J. Huang, J. Yu, and R.-X. Zhang*, "Classification of Interacting Dirac Semimetals", arXiv: 2211.03802(2022)

  4. R.-X. Zhang*, “Bulk-Vortex Correspondence of Higher-Order Topological Superconductors”, arXiv: 2208.01652 (2022)

  5. L.-H. Hu, R.-X. Zhang*, “Higher-Order Topological Lattice Defects in Iron-based Superconductors”, arXiv:2207.10113 (2022)

  6. R.-X. Zhang, C.-X. Liu, “Nonsymmorphic Symmetry Protected Dirac, Möbius, and Hourglass Fermions in Topological Materials”, Festschrift in Honor of the C N Yang Centenary, World Scientific (2022)

  7. S. Li, L.-H. Hu, R.-X. Zhang, S. Okamoto, “Topological Superconductivity From Forward Phonon Scatterings”, arXiv:2207.09443 (2022)


2021


  1. X. Wu, R.-X. Zhang, G. Xu, J. Hu, C.-X. Liu, “In the Pursuit of Majorana Modes in Iron-based High-Tc Superconductors”, Chapter 3, Memorial Volume for Shoucheng Zhang, World Scientific (2021)

  2. J. Yu, R.-X. Zhang, Z.-D. Song, “Dynamical Symmetry Indicators for Floquet Crystals”, Nature Communications 12, 5985 (2021)

  3. D. D. Vu, R.-X. Zhang*, Z.-C. Yang, S. Das Sarma, “Superconductors with anomalous Floquet higher-order topology”, Phys. Rev. B 104, L140502 (2021)

  4. R.-X. Zhang*, S. Das Sarma, “Anomalous Floquet Chiral Topological Superconductivity in a Topological Insulator Sandwich Structure”, Phys. Rev. Lett. 127.067001 (2021)

  5. R.-X. Zhang*, S. Das Sarma, “Intrinsic Time-reversal-invariant Topological Superconductivity in Thin Films of Iron-based Superconductors”, Phys. Rev. Lett. 126, 137001 (2021)

(Cover Article for Phys. Rev. Lett. Vol 126, Issue 13, https://journals.aps.org/prl/issues/126/13)

  1. B. Yang, Y. Bi, R.-X. Zhang, R.-Y. Zhang, O. You, Z. Zhu, J. Feng, H. Sun, C. T. Chan, C.-X. Liu, S. Zhang, “Momentum space toroidal moment in a photonic metamaterial”, Nature Communications 12, 1784 (2021)

  2. R.-X. Zhang*, Z.-C. Yang*, “Tunable Fragile Topology in Floquet Systems”, Phys. Rev. B 103, L121115 (2021)


2020


  1. L.-H. Hu*, R.-X. Zhang*, F.-C. Zhang, C. Wu, “Interacting topological mirror excitonic insulator in one dimension”, Phys. Rev. B 102, 235115 (2020)

  2. R.-X. Zhang*, Z.-C. Yang, “Theory of Anomalous Floquet Higher-order Topology: Classification, Characterization, and Bulk-boundary Correspondence”, arXiv: 2010.07945 (2020)

  3. R.-X. Zhang*, Y.-T. Hsu, S. Das Sarma, “Higher-order Topological Dirac Superconductors”, Phys. Rev. B 102, 094503 (2020)

  4. Y.-T. Hsu, W. S. Cole, R.-X. Zhang, J. D. Sau, “Inversion-protected higher order topological superconductivity in monolayer WTe2”, Phys. Rev. Lett. 125 (9), 097001 (2020)

  5. D. D. Vu, R.-X. Zhang*, S. Das Sarma, “Time-reversal-invariant C2-symmetric higher-order topological superconductors”, arXiv: 2005.03679 (2020) [accepted by Physical Review Research]

  6. F. Wu, R.-X. Zhang, S. Das Sarma, “Three-dimensional topological twistronics”, Phys. Rev. Research 2, 022010(R) (2020)

  7. R.-X. Zhang*, F. Wu*, S. Das Sarma, “Möbius Insulator and Higher-Order Topology in MnBi2nTe3n+1”, Phys. Rev. Lett. 124, 136407 (2020)

  8. R.-X. Zhang*, J. D. Sau*, S. Das Sarma, “Kitaev Building-block Construction for Higher-order Topological Superconductors”, arXiv: 2003.02559 (2020)


2019


  1. R.-X. Zhang*, W. S. Cole, X. Wu, S. Das Sarma, “Higher Order Topology and Nodal Topological Superconductivity in Fe (Se, Te) Heterostructures”, Phys. Rev. Lett. 123 (16), 167001 (2019)

(Cover Article for Phys. Rev. Lett. Vol 123, Issue 16, https://journals.aps.org/prl/issues/123/16)

  1. R.-X. Zhang*, W. S. Cole*, and S. Das Sarma, “Helical Hinge Majoranas in Iron-Based Superconductors”, Phys. Rev. Lett. 122, 187001 (2019)

  2. H. Jia, R.-X. Zhang, W. Gao, Q. Guo, B. Yang, J. Hu, Y. Bi, Y. Xiang, C.-X. Liu, and S. Zhang, “Observation of chiral zero mode in inhomogeneous three-dimensional Weyl metamaterials”, Science 363 (6423), 148-151 (2019)


Before 2019


  1. J. Li, R.-X. Zhang, Z. Yin, J. Zhang, K. Watanabe, T. Taniguchi, C.-X. Liu, J. Zhu, “A valley valve and electron beam splitter in bilayer graphene”, Science 362 (6419), 1149-1152 (2018)

  2. R.-X. Zhang and C.-X. Liu, “Crystalline symmetry protected Majorana mode in number-conserving Dirac semi-metal nanowires”, Phys. Rev. Lett. 120, 156802 (2018)

  3. R.-X. Zhang and C.-X. Liu, “Fingerprints of bosonic symmetry protected topological state in a quantum point contact”, Phys. Rev. Lett. 118, 216803 (2017)

  4. Z. Bi#, R. Zhang#, Y.-Z. You, A. Young, L. Balents, C.-X. Liu, and C. Xu, “Bilayer Graphene as a platform for Bosonic Symmetry Protected Topological States”, Phys. Rev. Lett. 118, 126801 (2017)

  5. R.-X. Zhang, C. Xu, and C.-X. Liu, “Interacting topological phases in thin films of topological mirror Kondo insulators”, Phys. Rev. B 94, 235128 (2016)

  6. R.-X. Zhang, H.-C. Hsu, and C.-X. Liu, “Electrically tunable spin polarization of chiral edge modes in a quantum anomalous Hall insulator”, Phys. Rev. B 93,235315 (2016)

  7. R.-X. Zhang and C.-X. Liu, “Topological invariants for three dimensional Dirac semimetals and four dimensional topological rotational insulators”, arXiv: 1605.04451 (2016)

  8. W. Cao, R.-X. Zhang, P. Tang, G. Yang, J. Sofo, W. Duan, and C.-X. Liu, “Heavy Dirac fermions in a graphene/topological insulator hetero-junction”, 2D Materials 3 (2016) 034006

  9. R.-X. Zhang, J. A. Hutasoit, Y. Sun, B. Yan, C. Xu, and C.-X. Liu, “Topological nematic phase in Dirac semi-metals”, Phys. Rev. B 93, 041108(R) (2016)

  10. X.-Y. Dong, J.-F. Wang, R.-X. Zhang, W.-H. Duan, B.-F. Zhu, J. O. Sofo, and C.-X. Liu, “Electrically tunable multiple Dirac cones in thin films of the (LaO)2(SbSe2)2 family of materials”, Nature Communication 6, 8517 (2015)

  11. R.-X. Zhang and C.-X. Liu, “Topological magnetic crystalline insulators and corepresentation theory”, Phys. Rev. B 91 (11), 115317 (2015)

  12. C.-X. Liu, R.-X. Zhang and B. K. VanLeeuwen, “Topological nonsymmorphic crystalline insulators”, Phys. Rev. B 90 (8), 085304 (2014)