PIs

Senior Lecturer / ARC Future Fellow, University of New South Wales 🔗
Status: unreviewed revisit date: None Application status: none LOR status: not_needed
Department(s)/lab(s): School of Physics | Cassidy Quantum Devices Group @ UNSW
Summary:

Cassidy (formerly Microsoft/Sydney) builds hybrid superconductor-semiconductor quantum devices and the microwave measurement chains needed to read them out: dispersive gate sensing, superconducting resonators coupled to semiconductor nanostructures, and quantum-limited parametric amplification. The programme sits at the boundary between quantum computing hardware and quantum sensing — many of the same circuits used to read a qubit are, viewed differently, near-quantum-limited detectors of microwave photons or of charge. 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 — a superconducting-resonator readout chain with a quantum-limited amplifier is the leading route to inductively-detected spin resonance at sensitivities well below the pT/sqrt(Hz) regime accessible to optical NV ensembles, and Cassidy's group has the full stack of skills required. Mid-career, actively building; good autonomy for a postdoc.

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: quantum devices group, School of Physics; ARC Future Fellow. Close ties to the UNSW EE quantum groups and to Reilly's lab at USyd.