KITS-IOP-ITP Joint Seminar
Title: Searching for Moiré flat bands beyond twisted bilayer graphene
Speaker: Prof. Ching-Kai Chiu (RIKEN, Japan)
Time: Dec. 19 (Tuesday), 14:30 Place: Rm M830, IOP-CAS
Abstract: Beyond twisted bilayer graphene, Moiré flat bands can emerge in various engineered platforms. Firstly, we propose a novel method for realizing flat band physics in monolayer graphene by using a modulation potential from substrates as a prototypical example. The periodic substrate potential manifests intervalley coupling that mimics Dirac cone coupling in twisted bilayer graphene. By adjusting the lattice constant of the periodic substrate, we can control this coupling, leading to the emergence of Moiré flat bands at certain "magic" lattice constants. Secondly, back to twisted bilayer systems, we present a systematic classification of topological nodes in base layers, focusing on their specific locations within the Brillouin zone. This enables us to identify the conditions under which flat bands are locked at zero energy, thereby elucidating the foundational physics behind band flatness and opening up new avenues for studying complex and enriched correlation physics.
Short bio: Dr. Ching-Kai Chiu is a Senior Research Scientist at the RIKEN Interdisciplinary Theoretical and Mathematical Sciences Program (iTHEMS), with a focus on theoretical condensed matter physics and collaborations with experimentalists. Holding a Ph.D. in Physics from the University of Illinois at Urbana-Champaign, Dr. Chiu classified topological (crystalline) insulators and superconductors. Dr. Chiu's interests are in topological phases of matter, topological quantum computing, and twisted bilayer systems. His prior career includes research in Majorana modes in superconductors at the Kavli Institute for Theoretical Sciences (2018-2020), the University of Maryland, USA (2015-2018), and a Max-Planck-UBC Postdoctoral Fellowship at the University of British Columbia, Canada (2013-2015).
More details can be found in http://seminar.cpsjournals.cn/