1. Insight into the temperature evolution of electronic structure and mechanism of exchange interaction in EuS
- Author
-
Alexander Generalov, G. Poelchen, Kurt Kummer, A. V. Fedorov, Clemens Laubschat, Sergey V. Eremeev, Cornelius Krellner, Stefan E. Schulz, D.V. Vyalikh, Kristin Kliemt, D. Yu. Usachov, Eugene V. Chulkov, N. Kaya, C. Polley, Arthur Ernst, German Research Foundation, Russian Foundation for Basic Research, Saint Petersburg State University, Swedish Research Council, and European Commission
- Subjects
Coupling ,Physics ,Work (thermodynamics) ,электронная структура ,Condensed matter physics ,Exchange interaction ,Heterojunction ,02 engineering and technology ,Electronic structure ,021001 nanoscience & nanotechnology ,01 natural sciences ,Atomic orbital ,Phase (matter) ,0103 physical sciences ,General Materials Science ,температурная эволюция ,Physical and Theoretical Chemistry ,010306 general physics ,0210 nano-technology ,ферромагнитные полупроводники ,Mixing (physics) - Abstract
Discovered in 1962, the divalent ferromagnetic semiconductor EuS (TC = 16.5 K, Eg = 1.65 eV) has remained constantly relevant to the engineering of novel magnetically active interfaces, heterostructures, and multilayer sequences and to combination with topological materials. Because detailed information on the electronic structure of EuS and, in particular, its evolution across TC is not well-represented in the literature but is essential for the development of new functional systems, the present work aims at filling this gap. Our angle-resolved photoemission measurements complemented with first-principles calculations demonstrate how the electronic structure of EuS evolves across a paramagnetic–ferromagnetic transition. Our results emphasize the importance of the strong Eu 4f–S 3p mixing for exchange-magnetic splittings of the sulfur-derived bands as well as coupling between f and d orbitals of neighboring Eu atoms to derive the value of TC accurately. The 4f–3p mixing facilitates the coupling between 4f and 5d orbitals of neighboring Eu atoms, which mainly governs the exchange interaction in EuS., This work was supported by the German Research Foundation (DFG) through Grant No. KR3831/5-1, No. LA655/20-1, No. SFB1143 (Project No. 247310070), and No. TRR288 (422213477, project A03). We acknowledge support from the Russian Foundation for Basic Research (Grant No. 20-32-70127) and Saint-Petersburg State University (Grant No. ID 73028629). S.V.E. acknowledges support from a government research assignment for ISPMS SB RAS (Project FWRW-2019-0032). We acknowledge MAX-IV Laboratory for time on the Bloch Beamline under Proposal 20190824. Research conducted at MAX IV, a Swedish national user facility, is supported by the Swedish Research council under contract 2018-07152, the Swedish Governmental Agency for Innovation Systems under contract 2018-04969, and Formas under contract 2019-02496. The research has also been supported by the project CALIPSO plus under Grant Agreement 730872 from the EU Framework Programme for Research and Innovation HORIZON 2020.
- Published
- 2021