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Abstract
Polar Rashba-type semiconductor BiTeI doped with magnetic elements constitutes one of the most promising platforms for the future development of spintronics and quantum computing thanks to the combination of strong spin-orbit coupling and internal ferromagnetic ordering. The latter originates from magnetic impurities and is able to open an energy gap at the Kramers point (KP gap) of the Rashba bands. In the current work using angle-resolved photoemission spectroscopy (ARPES) we show that the KP gap depends non-monotonically on the doping level in case of V-doped BiTeI. We observe that the gap increases with V concentration until it reaches 3% and then starts to mitigate. Moreover, we find that the saturation magnetisation of samples under applied magnetic field studied by superconducting quantum interference device (SQUID) magnetometer has a similar behaviour with the doping level. Theoretical analysis shows that the non-monotonic behavior can be explained by the increase of antiferromagnetic coupled atoms of magnetic impurity above a certain doping level. This leads to the reduction of the total magnetic moment in the domains and thus to the mitigation of the KP gap as observed in the experiment. These findings provide further insight in the creation of internal magnetic ordering and consequent KP gap opening in magnetically-doped Rashba-type semiconductors.
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1 Saint Petersburg State University, Saint Petersburg, Russia (GRID:grid.15447.33) (ISNI:0000 0001 2289 6897)
2 Saint Petersburg State University, Saint Petersburg, Russia (GRID:grid.15447.33) (ISNI:0000 0001 2289 6897); Helmholtz-Zentrum Berlin für Materialien und Energie, BESSY II, Berlin, Germany (GRID:grid.424048.e) (ISNI:0000 0001 1090 3682)
3 Saint Petersburg State University, Saint Petersburg, Russia (GRID:grid.15447.33) (ISNI:0000 0001 2289 6897); Kemerovo State University, Kemerovo, Russia (GRID:grid.79013.3c) (ISNI:0000 0001 2186 3188); Sobolev Institute of Geology and Mineralogy SB RAS, Novosibirsk, Russia (GRID:grid.415877.8) (ISNI:0000 0001 2254 1834)
4 Saint Petersburg State University, Saint Petersburg, Russia (GRID:grid.15447.33) (ISNI:0000 0001 2289 6897); Novosibirsk State University, Novosibirsk, Russia (GRID:grid.4605.7) (ISNI:0000000121896553); A. V. Rzhanov Institute of Semiconductor Physics, Novosibirsk, Russia (GRID:grid.450314.7)
5 Elettra Sincrotrone Trieste, Trieste, Italy (GRID:grid.5942.a) (ISNI:0000 0004 1759 508X)
6 Hiroshima University, Hiroshima Synchrotron Radiation Center, Higashi-Hiroshima, Japan (GRID:grid.257022.0) (ISNI:0000 0000 8711 3200)
7 Hiroshima University, Graduate School of Science, Higashi-Hiroshima, Japan (GRID:grid.257022.0) (ISNI:0000 0000 8711 3200)
8 Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow, Russia (GRID:grid.424964.9) (ISNI:0000 0004 0637 9699); Moscow Institute of Physics and Technology, Dolgoprudny, Russia (GRID:grid.18763.3b) (ISNI:0000000092721542)
9 Prokhorov General Physics Institute of the Russian Academy of Sciences, Moscow, Russia (GRID:grid.424964.9) (ISNI:0000 0004 0637 9699); P.N. Lebedev Physical Institute of Russian Academy of Sciences, Moscow, Russia (GRID:grid.425806.d) (ISNI:0000 0001 0656 6476)