Publications of Marcin Kurpas

Entanglement of qubits at a distance, M. Kurpas, E. Zipper Special Issue:Technology Trends and Theory of Nanoscale Devices for Quantum Applications” in Journal of Computational and Theoretical Nanoscience, (in press)
Entanglement of qubits via a nonlinear resonator M. Kurpas, J. Dajka, and E. Zipper, J. of Phys.:Condens. Matter 21 235602 (2009)
Entanglement of flux qubits through joint detection of photons, M. Kurpas, E. Zipper, Physica Stat. Solid. (b) 246, 961 (2009)
Entanglement swapping between electromagnetic field modes and matter qubits, M. Kurpas, E. Zipper, Eur. Phys. J. D 50, 201 (2008)
Entanglement of distant flux qubits mediated by non-classical electromagnetic field, E. Zipper, M. Kurpas, J. Dajka, M, Kus, J. Phys. Condensed Matter 20, 275219 (2008)
Coherent coupling between two semiconducting flux qubits, M. Kurpas, J. Dajka, E. Zipper, Journal of Physics:conference series 104, 012004 (2008)
Decoherence in flux qubits on mesoscopic non-superconducting rings,M. Kurpas, J. Dajka, E. Zipper, Physica Status Solidi (b)244, 2470 (2007)
Similarities and differences of persistent currents in superconducitng rings and normal mesoscopic cylinders M. Czechowska, M. Kurpas, K. Czajka, E. Zipper, Supercond. Sci. Technol. 20, 44 (2007)
Flux qubit on a mesoscopic non-superconduting ring, E. Zipper, M. Szelag, J. Dajka, M. Szopa , Phys. Rev. B74, 125426 (2006)
Coherent quantum dynamics of mesoscopic metallic ring with a barrier M. Szopa, E. Zipper, M. Szelag, M. Kurpas, Journal of Physics:Conf. Series 30, 224 (2006)
Cold penetration of the fourth layer issue model in the whole body cryotherapy conditions A. Cholewka, Z. Drzazga, W. Borgiel, M. Kurpas, IFMBE Proc 11 (1) No 1899 (2005)
  1. Marcin Kurpas, Martin Gmitra, and Jaroslav Fabian, Spin properties of black phosphorus and phosphorene, and their prospects for spincalorics, J. Phys. D: Appl. Phys. 51,17400 (2018)
  2. Ahmet Avsar, Jun Y. Tan, Marcin Kurpas, Martin Gmitra, Kenji Watanabe, Takashi Taniguchi, Jaroslav Fabian & Barbaros Özyilmaz, Gate-tunable black phosphorus spin valve  with nanosecond spin lifetimes, Nature Physics doi:10.1038/nphys4141 (2017)
  3. M. Kurpas, M. Gmitra, and J. Fabian, Spin-orbit coupling and spin relaxation in phosphorene: Intrinsic versus extrinsic effects, Phys. Rev. B 94, 155423 (2016)
  4. M. Kurpas, B. Kędzierska, I. Janus-Zygmunt, A. Gorczyca-Goraj, E. Wach, E. Zipper and M. M Maśka, Charge transport through a semiconductor quantum dot-ring nanostructure, J. Phys.: Condens. Matter 27 (2015) 265801
  5. I. Janus-Zygmunt, B. Kędzierska, A. Gorczyca-Goraj, M. Kurpas, M.M. Maśka, E. Zipper, Application of the dot-ring nanostructure to control electrical transport in the Coulomb blockade regime, Acta Phys. Polon. A 126, 1171 (2014).
  6. M. Kurpas, B. Kędzierska, I. Janus-Zygmunt, M. M. Maśka, and E. Zipper, Electrical control of spin relaxation time in complex quantum nanostructures, arXiv:1312.6544Acta Phys. Polon. A 126 A-20 (2014)
  7. M. Kurpas, E. Zipper, M. M. Maśka, Engineering of electron states and spin relaxation in quantum rings and quantum dot–ring nanostructures,"Physics of Quantum Rings", (2013) Springer Ed. V. Fomin
  8. E. Zipper, M. Kurpas, M. M. Maska Wave function engineering in quantum dot-ring nanostructures, New J. Phys. 14, 093029 (2012)arXiv:1203.1025v1
  9. E. Zipper, M. Kurpas, J. Sadowski and M.M. Maśka, Spin relaxation in semiconductor quantum rings and dots - a comparative study, J. Phys.: Condens. Matter 23 115302 (2011)
  10. E. Zipper and M. Kurpas, Entanglement of matter qubits at a distance, Special Issue:Technology Trends and Theory of Nanoscale Devices for Quantum Applications” in
    J. Comput. Theor. Nanosci. 7 1642 (2010).
  11. M. Kurpas, J. Dajka, and E. Zipper,Entanglement of qubits via a nonlinear resonator,
    J. Phys.: Condens. Matter 21 235602 (2009),
  12. M. Kurpas, E. Zipper, Entanglement of flux qubits through joint detection of photons,
    Phys. Stat. Sol. (b) 246, 961 (2009)
  13. M. Kurpas, E. Zipper, Entanglement swapping between electromagnetic field modes and matter qubits, Eur. Phys. J. D 50, 201 (2008)
  14. E. Zipper, M. Kurpas, J. Dajka, M, Kuś, Entanglement of distant flux qubits mediated by non-classical electromagnetic field, J. Phys.: Condens. Matter 20, 275219 (2008)
  15. M. Kurpas, J. Dajka, E. Zipper, Coherent coupling between two semiconducting flux qubits,
    J. Phys.: Conf. Ser. 104, 012004 (2008)
  16. M. Kurpas, J. Dajka, E. Zipper, Decoherence in flux qubits on mesoscopic non-superconducting rings, Phys. Stat. Sol. (b)244, 2470 (2007)
  17. M. Czechowska, M. Kurpas, K. Czajka, E. Zipper, Similarities and differences of persistent currents in superconducitng rings and normal mesoscopic cylinders, Supercond. Sci. Technol. 20, 44 (2007)
  18. E. Zipper, M. Kurpas, M. Szelag, J. Dajka, M. Szopa , Flux qubit on a mesoscopic non-superconduting ring, Phys. Rev. B 74, 125426 (2006)
  19. M. Szopa, E. Zipper, M. Szelag, M. Kurpas, Coherent quantum dynamics of mesoscopic metallic ring with a barrier, J. Phys.: Conf. Ser. 30, 224 (2006)
  20. A. Cholewka, Z. Drzazga, W. Borgiel, M. Kurpas, Cold penetration of the fourth layer issue model in the whole body cryotherapy conditions, IFMBE Proc 11 (1) No 1899 (2005).