Jonas Zipfel, Elyse Barre, Antonio Rossi, John Thomas
The Symposium will cover a wide range of fundamental electro-optical properties of novel two-dimensional materials connected to the formation of tightly bound excitonic quasi-particles from both the experimental and theoretical side. This includes different sample structures, from patterned monolayers to artificially stacked heterostructures, as well as a variety of distinct techniques and methods to describe, access and/or control excited electro-optical states inside these systems.
Symposium Sponsor:
Symposium Location: B50 Auditorium
Symposium Schedule:
2:00 – 2:30 pm
Excited states in atomically thin moiré materials and their dynamics
Felipe H. da Jornada, Stanford University
2:30 – 3:00 pm
Direct imaging of moiré excitons in the WS2/WSe2 heterostructure
Sandhya Susarla, Arizona State University
3:00 – 3:30 pm
Diffusion of interlayer excitons in reconstructed WSe2/MoSe2 heterostructures
Edith Wietek, Technische Universitat Dresden
3:30 – 3:35 pm
Rigetti Computing
3:35 – 4:00 pm
Break
4:00 – 4:30 pm
Spintronics with 2D and Topological Materials: Outstanding Opportunities in van der Waals Heterostructures
Yunqiu Kelly Luo, Cornell University & University of Southern California
4:30 – 5:00 pm
Synthesis and processing of high-mobility CVD graphene for optoelectronics applications and twistronics
Vaidotas Mišeikis, Instituto Italiano di Tecnologia
5:00 – 5:15 pm
Tuning the emergent magnetic properties of intercalated 2H-TaS2 with choice of transition metal ion and twist angle via ab initio methods
Iflah Laraib, Berkeley Lab
5:15 – 5:30 pm
Dephasing times in solid state qubits
Jacopo Simoni, Berkeley Lab