Artificially Engineered Exction Quantum Dot Arrays for Quantum Information Science Applications
Abstract
This proeject focused on the following research activities:(a) Exploring MBE/CVD growth of monolayer TMDs and investigate the interlayer exciton diffusion in TMDs heterostructures(b) STM/S investigations of honeycomb BeO on epitaxial Ag films(c) Optical spectroscopy investigation of the exciton binding energy of TMDs in different dielectric environments.(d) Momentum space investigations of a wafer scale monolayer TMD semiconductors and heterostructures using ARPES(e) Development of time-resolved ARPES to investigate excited state properties of quantum materials including monolayer TMD(f) Optical spectroscopy investigation of TMD bilayer systems to determine interlayer coupling energy at different critical points in the Brillouin zone.(g) Optical spectroscopy studies of MoSe2/MoS2 hetero-bilayers with twist angle dependent intra-layer excitons and inter-layer excitons
Document Details
- Document Type
- Technical Report
- Publication Date
- May 22, 2022
- Accession Number
- AD1171241
Entities
People
- Chih-Kang Shih
Organizations
- University of Texas at Austin