PIs

Scientia Professor, Director Silicon Quantum Computing, University of New South Wales 🔗
Status: unreviewed revisit date: None Application status: none LOR status: not_needed
Department(s)/lab(s): School of Physics | Atomic Fabrication Facility (Simmons) @ UNSW
Summary:

Simmons pioneered atomic-precision fabrication in silicon: hydrogen-resist STM lithography, phosphine dosing and epitaxial silicon overgrowth to place individual dopant atoms with sub-nanometre accuracy, then measure them at millikelvin. The programme has produced single-atom transistors, precision dopant arrays used as analogue quantum simulators, and the largest atom-scale device platform in the world; she also founded Silicon Quantum Computing Pty Ltd. The sensing-relevant capability is the single-electron transistor as an exquisitely sensitive electrometer, capable of resolving individual charge transitions and mapping local electrostatic potential at the atomic scale. Positioned against the established body of NV-ensemble quantum sensing work — DEER, nanoscale NMR and T1 relaxometry protocols operating at pT/sqrt(Hz) field sensitivity — her SET electrometry is the charge-domain counterpart to magnetic NV sensing at pT/sqrt(Hz): both are single-quantum-object detectors whose performance is limited by back-action and by the noise of the readout chain. Very large group, strongly fabrication-oriented and commercially entangled, which cuts against the stated preference for sensitivity-limited rather than fabrication-limited work.

Created at: July 12, 2026, 1:03 a.m. Updated at: July 12, 2026, 1:03 a.m. Metadata: Fresh 2026-07-11. Primary lab: Atomic Fabrication Facility, School of Physics; also Director of Silicon Quantum Computing Pty Ltd, which absorbs much of the group's output.