Majorana physics

    1. A.L. Rakhmanov, A.V. Rozhkov, F. Nori
      Majorana fermions in pinned vortices
      Phys. Rev. B 84, 075141 (2011). [PDF][Link][arXiv]

    2. J.Q. You, Z.D. Wang, W. Zhang, F. Nori
      Manipulating and probing Majorana fermions using superconducting circuits
      (2011). [Link][arXiv]

    3. J.Q. You, Z.D. Wang, W. Zhang, F. Nori
      Encoding a qubit with Majorana modes in superconducting circuits
      Scientific Reports 4, 5535 (2014). [PDF][Link][arXiv]

    4. R.S. Akzyanov, A.V. Rozhkov, A.L. Rakhmanov, F. Nori
      Tunneling spectrum of a pinned vortex with a robust Majorana state
      Phys. Rev. B 89, 085409 (2014). [PDF][Link][arXiv]

    5. R.S. Akzyanov, A.L. Rakhmanov, A.V. Rozhkov, F. Nori
      Majorana fermions at the edge of superconducting islands
      Phys. Rev. B 92, 075432 (2015). [PDF][Link][arXiv]

    6. P. Zhang, F. Nori
      Coherent manipulation of a Majorana qubit by a mechanical resonator
      Phys. Rev. B 92, 115303 (2015). [PDF][Link][arXiv]

    7. P. Zhang, F. Nori
      Majorana bound states in a disordered quantum dot chain
      New Journal of Physics 18, 043033 (2016). [PDF][Link][arXiv]

    8. R.S. Akzyanov, A.L. Rakhmanov, A.V. Rozhkov, F. Nori
      Tunable Majorana fermion from Landau quantization in 2D topological superconductors
      Phys. Rev. B 94, 125428 (2016). [PDF][Link][arXiv]

    9. Y.I. Rodionov, K.I. Kugel, F. Nori
      Floquet spectrum and driven conductance in Dirac materials: Effects of Landau-Zener-Stückelberg-Majorana interferometry
      Phys. Rev. B 94, 195108 (2016). [PDF][Link][arXiv]

    10. O.V. Ivakhnenko, S.N. Shevchenko, F. Nori
      Simulating quantum dynamical phenomena using classical oscillators: Landau-Zener-Stückelberg-Majorana interferometry, latching modulation, and motional averaging
      Scientific Reports 8, 12218 (2018). [PDF][Link][arXiv]

    11. T. Liu, J.J. He, F. Nori
      Majorana corner states in a two-dimensional magnetic topological insulator on a high-temperature superconductor
      Phys. Rev. B 98, 245413 (2018). [PDF][Link][arXiv]

    12. T. Liu, J.J. He, Z. Yang, F. Nori
      Higher-Order Weyl-Exceptional-Ring Semimetals
      Phys. Rev. Lett. 127, 196801 (2021). [PDF][Link][arXiv][Suppl. Info.]

    13. O.V. Ivakhnenko, S.N. Shevchenko, F. Nori
      Nonadiabatic Landau–Zener–Stückelberg–Majorana transitions, dynamics, and interference
      Physics Reports 995, pp. 1-89 (2023). [PDF][Link][arXiv] (published online Nov. 10, 2022)

    14. M. Parto, C. Leefmans, J. Williams, F. Nori, A. Marandi
      Non-Abelian effects in dissipative photonic topological lattices
      Nature Communications 14, 1440 (2023). [PDF][Link][arXiv][Suppl. Info.][Reviewers' Comments]

    15. P.O. Kofman, O.V. Ivakhnenko, S.N. Shevchenko, F. Nori
      Majorana’s approach to nonadiabatic transitions validates the adiabatic-impulse approximation
      Scientific Reports 13, 5053 (2023). [PDF][Link][arXiv][Suppl. Info.]

    16. Z.C. Xiang, K. Huang, Y.R. Zhang, T. Liu, Y.H. Shi, C.L. Deng, T. Liu, H. Li, G.H. Liang, Z.Y. Mei, H. Yu, G. Xue, Y. Tian, X. Song, Z.B. Liu, K. Xu, D. Zheng, F. Nori, H. Fan
      Simulating Chern insulators on a superconducting quantum processor
      Nature Communications 14, 5433 (2023). [PDF][Link][arXiv][Suppl. Info. 1, 2, MP4][Reviewers' Comments]

Please see also the works in this list:


Landau-Zener transitions; Landau-Zener- Stückelberg-Majorana interferometry; Adiabatic quantum computing, etc.