| Literature DB >> 33274982 |
G Gatti1,2, D Gosálbez-Martínez1,3, S S Tsirkin4, M Fanciulli5,6, M Puppin2,7, S Polishchuk2,7, S Moser8,9, L Testa1, E Martino1, S Roth1,2, Ph Bugnon1, L Moreschini8, A Bostwick8, C Jozwiak8, E Rotenberg8, G Di Santo10, L Petaccia10, I Vobornik11, J Fujii11, J Wong12, D Jariwala13, H A Atwater12, H M Rønnow1, M Chergui2,7, O V Yazyev1,3, M Grioni1,2, A Crepaldi1,2.
Abstract
Trigonal tellurium, a small-gap semiconductor with pronounced magneto-electric and magneto-optical responses, is among the simplest realizations of a chiral crystal. We have studied by spin- and angle-resolved photoelectron spectroscopy its unconventional electronic structure and unique spin texture. We identify Kramers-Weyl, composite, and accordionlike Weyl fermions, so far only predicted by theory, and show that the spin polarization is parallel to the wave vector along the lines in k space connecting high-symmetry points. Our results clarify the symmetries that enforce such spin texture in a chiral crystal, thus bringing new insight in the formation of a spin vectorial field more complex than the previously proposed hedgehog configuration. Our findings thus pave the way to a classification scheme for these exotic spin textures and their search in chiral crystals.Entities:
Year: 2020 PMID: 33274982 DOI: 10.1103/PhysRevLett.125.216402
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161