Tkwant has been used in the following studies:

  1. A. Kara Slimane, P. Reck, and G. Fleury, Simulating time-dependent thermoelectric transport in quantum systems, Phys. Rev. B 101, 235413 (2020).[arXiv]
  2. B. Rossignol, T. Kloss, and X. Waintal, Role of Quasi-particles in an Electric Circuit with Josephson Junctions, Phys. Rev. Lett. 122, 207702 (2019). [arXiv]
  3. B. Rossignol, T. Kloss, P. Armagnat, and X. Waintal, Toward flying qubit spectroscopy, Phys. Rev. B 98, 205302 (2018). [arXiv]
  4. T. Kloss, J. Weston, and X. Waintal, Transient and Sharvin resistances of Luttinger liquids, Phys. Rev. B 97, 165134 (2018). [arXiv]
  5. A. Abbout, J. Weston, X. Waintal, and A. Manchon, Cooperative Charge Pumping and Enhanced Skyrmion Mobility, Phys. Rev. Lett. 121, 257203 (2018). [arXiv]
  6. J. Weston and X. Waintal, Towards realistic time-resolved simulations of quantum devices, J. Comput. Electron. 15, 1148 (2016). [arXiv]
  7. J. Weston and X. Waintal, Linear-scaling source-sink algorithm for simulating time-resolved quantum transport and superconductivity, Phys. Rev. B 93, 134506 (2016). [arXiv]
  8. B. Gaury and X. Waintal, A computational approach to quantum noise in time-dependent nanoelectronic devices, Physica E 75, 72 (2016). [arXiv]
  9. M. Fruchart, P. Delplace, J. Weston, X. Waintal, and D. Carpentier, Probing (topological) Floquet states through DC transport, Physica E 75, 287 (2016). [arXiv]
  10. B. Gaury, J. Weston, X. Waintal, The a.c. Josephson effect without superconductivity, Nat. Commun. 6, 6524 (2015). [arXiv]
  11. J. Weston, B. Gaury, and X. Waintal, Manipulating Andreev and Majorana bound states with microwaves, Phys. Rev. B 92, 020513 (2015). [arXiv]
  12. B. Gaury, J. Weston, and X. Waintal, Stopping electrons with radio-frequency pulses in the quantum Hall regime, Phys. Rev. B 90, 161305 (2014). [arXiv]
  13. B. Gaury, J. Weston, M. Santin, M. Houzet, C. Groth and X. Waintal, Numerical simulations of time-resolved quantum electronics, Phys. Rep. 534, 1 (2014). [arXiv]