Wister Wei HUANG
PhD, University of New South Wales (2019)
Assistant Professor, NUS Presidential Young Professorship
Current Research
- Asst/Prof Huang leads pioneering experiments in spin qubit readout for bilayer graphene quantum dots and the creation of quantum dots in planar germanium heterostructures. His academic path began at the University of New South Wales in Australia, where he completed his PhD and postdoctoral research, specializing in silicon qubits. His notable research endeavors encompass the implementation of high-fidelity two-qubit logic gates in silicon quantum dots, thorough characterization of noise sources in silicon MOS qubits, achieving high-fidelity readout in bilayer graphene quantum dots, and investigating qubit scalability. His contributions have been recognized in high-impact journals such as Nature, Nature Nanotechnology, and Physical Review Letters.
Selected Publications
- A two-qubit logic gate in silicon
M Veldhorst, CH Yang, JCC Hwang, W Huang, JP Dehollain, JT Muhonen, …
Nature 526 (7573), 410-414 - Fidelity benchmarks for two-qubit gates in silicon
W Huang, CH Yang, KW Chan, T Tanttu, B Hensen, RCC Leon, …
Nature, 1 - Operation of a silicon quantum processor unit cell above one kelvin
CH Yang, RCC Leon, JCC Hwang, A Saraiva, T Tanttu, W Huang, …
Nature 580 (7803), 350-354 - Silicon qubit fidelities approaching incoherent noise limits via pulse engineering
CH Yang, KW Chan, R Harper, W Huang, T Evans, JCC Hwang, …
Nature Electronics 2 (4), 151-158 - Assessment of a silicon quantum dot spin qubit environment via noise spectroscopy
KW Chan, W Huang, CH Yang, JCC Hwang, B Hensen, T Tanttu, …
Physical Review Applied 10 (4), 044017
Affiliations & Links
- NUS Presidential Young Professorship (PYP)
- Assistant Professor at Department of Materials Science and Engineering, NUS
- Google Scholar