Nanostructural origin of giant Rashba effect in intercalated graphene
2D Materials, 2017 - iopscience.iop.org
To enhance the spin–orbit interaction in graphene by a proximity effect without
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
[引用][C] Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - 2D Materials, 2017 - cir.nii.ac.jp
Nanostructural origin of giant Rashba effect in intercalated graphene | CiNii Research CiNii
国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 論文・データを …
国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 論文・データを …
Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - 2D …, 2017 - publishup.uni-potsdam.de
To enhance the spin-orbit interaction in graphene by a proximity effect without compromising
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
[PDF][PDF] Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - academia.edu
To enhance the spin-orbit interaction in graphene by a proximity effect without compromising
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
[引用][C] Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - 2D Materials, 2017 - elibrary.ru
Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, D Marchenko, O Rader… - 2D …, 2017 - juser.fz-juelich.de
To enhance the spin–orbit interaction in graphene by a proximity effect without
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - 2D …, 2017 - ui.adsabs.harvard.edu
To enhance the spin-orbit interaction in graphene by a proximity effect without compromising
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
[PDF][PDF] Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - core.ac.uk
To enhance the spin-orbit interaction in graphene by a proximity effect without compromising
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
the quasi-free-standing dispersion of the Dirac cones means balancing the opposing …
Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, E Golias, D Marchenko… - 2D Materials, 2017 - inis.iaea.org
[en] To enhance the spin–orbit interaction in graphene by a proximity effect without
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
Nanostructural origin of giant Rashba effect in intercalated graphene
M Krivenkov, D Marchenko, O Rader… - 2D …, 2017 - juser.fz-juelich.de
To enhance the spin–orbit interaction in graphene by a proximity effect without
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …
compromising the quasi-free-standing dispersion of the Dirac cones means balancing the …