Postdoctoral researcher
Quantum sensing based on optically active spin defects in semiconductors (color center spins) is an
emerging opportunity to deploy SI-traceable measurements in widespread application areas, including
transportation, medicine, and resource exploration. The Nanoscale Spectroscopy Group seeks a research
physicist to conduct optically and photoelectrically detected spin resonance sensing of magnetic fields
for such applications. The successful candidate will study the physics and control of color center spins
using a combination of metrologies, including optical and magnetic spectroscopies, advanced
microscopies, and simulations to develop quantum sensing platforms. With limited supervision, the
candidate will develop high-resolution spectral characterization of NV centers in diamond and other
color center spins; investigate promising new color center spins in systems such as GaN, Si, and SiC, etc.;
use judgment and literature precedents to research, interpret, and apply available guiding principles to
characterize nanoscale optical and spin measurements of color centers, including single-defect emission,
time-resolved detection, stroboscopic and spectroscopic methods, and nanoscale magnetometry using
diverse readout schemes. The candidate will also integrate Bayesian algorithms for efficient
measurements and develop automated measurement systems. The candidate will undertake numerical
modelling of spin dynamics to understand device performance and improve on sensor design. The work
impacts the goals of the nanoscale spectroscopy program to advance the development of engineered
artificial atoms for nanoscale sensing and quantum applications. The candidate will interact with a
broader team consisting of spectroscopy and materials chemistry expertise. The candidate will
disseminate research results through open literature publication and technical talks at conferences.
Research Physicist – Quantum magnetometry using photoelectrically detected magnetic resonance of NV centers in diamond
- Ph.D. in Physics, Electrical Engineering, Applied Physics, or a closely related field.
- At least 2 years of relevant experience.
- Experience in magnetic resonance/ODMR/EDMR of color center spins, including NV centers in
diamond. - Experience with confocal microscopy, lasers, optical alignment, single photon counting, microwave
electronics, and experimental design. - Familiarity with Bayesian experimental design and programming instrumental control.
- Team-oriented and goal-driven, with strong written and oral communication skills.
- Demonstrated ability to write and present research clearly and effectively.
Key responsibilities will include but are not limited to:
- Designing, integrating, testing, and operating instrumentation for performing optically
detected and photoelectrically detected magnetic resonance sensing of diamond NV
centers. - Develop scanning confocal microscopy, widefield microscopy, and bulk sensor
instrumentation incorporating optical excitation and readout, electrical biasing, and
microwave spin control. - Developing new and employing existing Bayesian algorithms for measurement efficiency
and automation. - Numerical modelling of spin resonance dynamics for sensor development.
- Presenting results at internal meetings, and occasional meetings with external stakeholders.
- Ensuring that results, protocols, software, and documentation have been archived or otherwise
transmitted to the larger organization.