Our research lies at the convergence of condensed matter physics, ultrafast photonics and spectroscopy. It encompasses the development of new and customized femtosecond laser sources and accompanying spectroscopic techniques and employing them in tandem to unravel properties of quantum materials when they are at equilibrium and when they are in excited states. In a long-term scientific goal, we seek to implement photonic manipulation and control of quantum states/phases within solids.
David Jones - Stewart Blusson Quantum Matter Institute
Advanced laser ablation spectroscopy: a green path to Canada's critical minerals - Stewart Blusson Quantum Matter Institute
MengXing Na - The University of British Columbia
New Laser Technique Images Quantum World in a Trillionth of a Second
News, Page 215
Paola Baca on LinkedIn: UBC's Blusson QMI: Creating the building blocks for future quantum…
Difluoromethylborates and Muonium for the Study of Isonitrile Insertion Affording Phenanthridines via Imidoyl Radicals
Alexandra Tully - Stewart Blusson Quantum Matter Institute
About - Quantum Colab
New picosecond laser technique to shed light on conductivity
Steven Blaber (@StevenBlaber) / X
Quantum Materials by Design @ UBC-QMI
Testimonial - Stewart Blusson Quantum Matter Institute
Condensed Matter UBC Physics & Astronomy
Topical Review of Quantum Materials and Heterostructures Studied by Polarized Neutron Reflectometry - Causer - 2023 - physica status solidi (RRL) – Rapid Research Letters - Wiley Online Library