Berlin 2024 – wissenschaftliches Programm
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O: Fachverband Oberflächenphysik
O 94: Focus Session: Proximity Effects in Epitaxial Graphene I
Donnerstag, 21. März 2024, 15:00–18:00, MA 141
Proximity-induced correlation effects in low dimensional electron gases are essential for the design of new quantum materials with tailored electronic, magnetic and optical properties. The recent reports on superconductivity in twisted bilayer graphene is an intriguing example. Inherently, proximity coupling often comes along with further effects, e.g. hybridization, charge transfer, etc., so that intended quantum phenomena become easily quenched. Epitaxial graphene (EG) resembles a truly 2D electron gas system and is known for its ability of manifold and flexible functionalization schemes at its vacuum and interface site, e.g. by doping, encapsulation with high-Z materials as well as formation of superlattices. This Focus Session will provide an overview of the current state of research and possible perspectives.
Organizer: Christoph Tegenkamp (TU Chemnitz)
15:00 | O 94.1 | Topical Talk: Tailoring the electronic structure of epitaxial graphene on SiC — •Kathrin Küster | |
15:30 | O 94.2 | Investigating intercalated Lead layers underneath epitaxial graphene — •Philip Schädlich, Franziska Schölzel, Peter Richter, and Thomas Seyller | |
15:45 | O 94.3 | Pb-intercalated epitaxial graphene on SiC: Charge transfer mechanism and spin-split interlayer bands — •Bharti Matta, Philipp Rosenzweig, Kathrin Küster, Craig Polley, and Ulrich Starke | |
16:00 | O 94.4 | Electronic structure of intercalated epitaxial graphene: A first principles study — •Andres Unigarro, Florian Günther, Franziska Schölzel, Niklas Witt, Thomas Seyller, Tim Wehling, and Sibylle Gemming | |
16:15 | O 94.5 | Mott states under cover: Silicon intercalation of epitaxial graphene — •Niclas Tilgner, Zamin Mamiyev, and Thomas Seyller | |
16:30 | O 94.6 | Topical Talk: Proximity spin-orbit coupling and topological interfaces in graphene / alloyed transition metal dichalcogenide heterostructures — •Stephen Power and Zahra Khatibi | |
17:00 | O 94.7 | Non-equilibrium carrier dynamics and band structure of graphene on 2D tin — •Maria-Elisabeth Federl, Niklas Hofmann, Leonard Weigl, Johannes Gradl, Niklas Witt, Tim Wehling, Biao Yang, Neeraj Mishra, Camilla Coletti, and Isabella Gierz | |
17:15 | O 94.8 | Spatially Resolved Sn Intercalation of Epitaxial Buffer Layer of Graphene on SiC — •Benno Harling and Martin Wenderoth | |
17:30 | O 94.9 | Low energy plasmons in Sn-intercalated quasi-free-monolayer-graphene — •Zamin Mamiyev and Christoph Tegenkamp | |
17:45 | O 94.10 | Evidence of Sn-induced Mott states coupled to Dirac electrons in epitaxial graphene — •Chitran Ghosal, Zamin Mamiyev, Siheon Ryee, Niklas Witt, Tim Wehling, and Christoph Tegenkamp | |