1.
2.
3.
Theory of the ac spin-valve effect.
by Kochan, Denis
Physical review letters, October 21, 2011, Vol.107(17), p.176604
4.
Spin relaxation mechanism in graphene: resonant scattering by magnetic impurities
by Kochan, Denis
Physical review letters, 21 March 2014, Vol.112(11), pp.116602
5.
Spin-orbit coupling in hydrogenated graphene
by Gmitra, Martin
Physical review letters, 14 June 2013, Vol.110(24), pp.246602
6.
Anisotropic optical properties of Fe/GaAs(001) nanolayers from first principles
by Putz, Sebastian
arXiv.org, Feb 28, 2014
7.
Optical conductivity of hydrogenated graphene from first principles
by Putz, Sebastian
arXiv.org, Sep 4, 2013
8.
Resonant scattering by magnetic impurities as a model for spin relaxation in bilayer graphene
by Kochan, Denis
arXiv.org, Feb 29, 2016
9.
Spin properties of black phosphorus and phosphorene, and their prospects for spincalorics
by Kurpas, Marcin
Journal of Physics D: Applied Physics, 2018, Vol.51(17), p.174001 (8pp)
10.
Magnetic control of spin-orbit fields: a first-principles study of Fe/GaAs junctions
by Gmitra, Martin
arXiv.org, Mar 11, 2013
11.
Protected pseudohelical edge states in proximity graphene ribbons and flakes
by Tobias, Frank
arXiv.org, Jul 7, 2017
12.
Tight-binding theory of the spin-orbit coupling in graphene
by Konschuh, Sergej
Physical Review B, 12/2010, Vol.82(24)
14.
Current-induced dynamics in asymmetric spin valves
by Gmitra, Martin
Applied Physics Letters, 27 November 2006, Vol.89(22)
15.
Excitonic Valley Effects in Monolayer WS2 under High Magnetic Fields.
by Plechinger, Gerd
Nano letters, December 14, 2016, Vol.16(12), pp.7899-7904
17.
18.
Electrically tunable exchange splitting in bilayer graphene on monolayer Cr2X2Te6 with X = Ge, Si, and Sn
by Zollner, Klaus
New Journal of Physics, Jul 2018
19.
20.
Theory of electronic and spin-orbit proximity effects in graphene on Cu(111)
by Tobias, Frank
arXiv.org, Jan 11, 2016
