NONLOCAL: ERC Synergy Grant

NONLOCAL: ERC Synergy Grant is a Horizon 2020 grant awarded to the Principle Investigators Professors Charles M. Marcus, Karsten Flensberg, Ferdinand Kuemmeth and Martin Leijnse. Marcus, Flensberg and Kuemmeth are based at the Center for Quantum Devices at the Niels Bohr Institute, while Leijnse is based at NanoLund: Center for Nanoscience, Lund University.

The NONLOCAL project kicked off on 1 November 2020 and will run until 31 August 2026. The program involves design and implementation of systems with multiple Majorana bound states (MBSs) and quantum dots, thus taking advantage of well-known quantum systems for diagnostics of the topological properties of MBSs, including spinful quantum dots, charge sensing and quantum capacitance measurements. It takes it’s beginning in a number of experiments that reveal the inner nature of the MBSs, in particular their spin texture, spatial extend, and most importantly the lifetime of pairs of MBSs candidates both with finite and negligible overlap.

What is known at this time is that zero bias peaks consistent with Majorana interpretations are more or less routinely observed and have been reported in a number of papers. Moreover, superconductor islands made from the proximitized nanowires consistently show a transition from only accepting electron pairs – as expected for a trivial superconductor – to a regime where the even and odd occupied states of a superconducting island are degenerated. The latter is consistent with a transition to a topologically non-trivial state. In addition, there are many details in the transport spectroscopy that support the MBS interpretation. On the theory side, the agreement with experiments is based on effective models that include the main ingredients, spin-orbit coupling and induced pairing. However, the exact microscopic nature of both ingredients is to a large extend still not understood. In this project, we introduce a joint experimental and theoretical research program with the objective of investigating the physics of nonlocal and nonabelian particles using MBSs.

The already published papers include, among other key points, theory on measurement setup for the important parity-to-charge conversion plus protocols for investigation of the nonabelian and nonlocal properties. Preprint papers include experimental papers on the same topic as well as novel superconductor-semiconductor hybrid systems. 

The project aims to bring new insight into a new class of macroscopic quantum phenomena of topological origin. It is also possible that results will lead to applications in the form of quantum computation or quantum information storage.

 

Publications (updated 2 January 2023)

  1. A. Maiani, R. Seoane Souto, Martin Leijnse, and Karsten Flensberg. (2021). Topological superconductivity in semiconductor–superconductor–magnetic-insulator heterostructures. Phys. Rev. B 103, 104508 (Published 12 March 2021)

  2. J. Schulenborg, M. Burello, M. Leijnse, and K. Flensberg. (2021). Multilevel effects in quantum dot based parity-to-charge conversion of Majorana box qubits. Phys. Rev. B 103, 245407 (Published 3 June 2021)

  3. D. Kuzmanovski, R. Seoane Souto, and A. V. Balatsky. (2021). Persistent current noice in narrow Josephson junctions. Phys. Rev. B 104, L100505 (Published 21 September 2021)

  4. M. Geier, I. Cosma Fulga, A. Lau. (2021). Bulk-boundary-defect correspondence at disclinations in rotation-symmetric topological insulators and superconductors. SciPost Phys. 10, 092 (Published 26 April 2021)

  5. R. Seoane Souto, A. E. Feiguin, A. Martín-Rodero, and A. Levy Yeyati. (2021). Transient dynamics of a magnetic impurity coupled to superconducting electrodes: Exact numerics versus perturbation theory. Phys. Rev. B. 104, 214506 (Published 16 December 2021)

  6. S. Krøjer, R. Seoane Souto, and K. Flensberg. (2022). Demonstrating Majorana non-Abelianproperties using fast adiabatic charge transfer. Phys. Rev. B 105, 045425 (Published 28 January 2022)

  7. R. Seoane Souto, M. Leijnse. (2022). Fusion rules in a Majorana single-charge transistor, SciPost Phys. 12, 161 (Published 16 May 2022)

  8. S. Vaitiekènas, R. Seoane Souto, Y. Liu, P. Krogstrup, K. Flensberg, M. Leijnse, and C. M. Marcus. (2022). Evidence for spin-polarized bound states in semiconductor-superconductor-ferromagnetic-insulator islands. Phys. Rev. B 105, L041304 (Published 31 January 2022)

  9. A.Tsintzis, R.Seoane Souto, and M. Leijnse (2022). Creating and detecting poor man's Majorana bound states in interacting quantum dots. Phys. Rev. B 106, L201404 (Published 17 November 2022)

  10. T. LiM. GeierJ. Inghamand H. D Scammell, Higher-order topological superconductivity from repulsive interactions in kagome and honeycomb systems. 2D Mater9 015031 (Published 21 December 2021)

  11. M. Nitsch, R. Seoane Souto, and M. Leijnse (2022). Interference and parity blockade in transport through a Majorana box. Phys. Rev. B 106, L201305 (Published 17 November 2022).

  12. S. D. Escribano, A. Maiani, M. Leijnse, K. Flensberg, Y. Oreg, A. L. Yeyati, E.Prada, R. Seoane Souto (2022). Semiconductor-ferromagnet-superconductor planar heterostructures for 1D topological superconductivity. npj Quantum Materials volume 7, Article number: 81 (Published 18 August 2022)

  13. S. Simon, M. Geier, and P. W. Brouwer (2022). Higher-order topological semimetals and nodal superconductors with an order-two crystalline symmetry. Phys. Rev. B 106, 035105 (Published 5 July 2022)

  14. I. E. Nielsen, K. Flensberg, R. Egger, and M. Burrello (2022). Readout of Parafermionic States by Transport Measurements. Phys. Rev. Lett. 129, 037703 – Published 13 July 2022

  15. H. D. Scammell, J. Ingham, M. Geier, and T. Li (2022). Intrinsic first- and higher-order topological superconductivity in a doped topological insulator. Phys. Rev. B 105, 195149 (Published 31 May 2022)

  16. B. Sbierski, M. Geier, A.-P. Li, M. Brahlek, R. G. Moore, and J. E. Moore (2022). Identifying Majorana vortex modes via nonlocal transport. Phys. Rev. B 106, 035413 (Published 14 July 2022)

  17. A. Chatterjee, F. Ansaloni, T. Rasmussen, B. Brovang, F. Fedele, H. Bohuslavskyi, O. Krause, and F. Kuemmeth (2022). Autonomous Estimation of High-Dimensional Coulomb Diamonds from Sparse Measurements. Phys. Rev. Applied 18, 064040 (Published 14 December 2022)

  18. R. S.Souto, M. M. Wauters, K. Flensberg, M. Leijnse, and M. Burrello (2022). Multiterminal transport spectroscopy of subgap states in Coulomb-blockaded superconductors. Phys. Rev. B 106, 235425 (Published 22 December 2022)
  19. R. S. Souto, M. Leijnse, and C. Schrade. Josephson Diode Effect in Supercurrent Interferometers. Phys. Rev. Lett. 129, 267702 (Published 22 December 2022)