Quantum Colab workshop: accelerating quantum research through collaboration
The Quantum Colaboratory (Quantum Colab) has hosted a workshop on growing superconducting materials, convening researchers from its three partner universities to share their expertise and discuss opportunities for collaborative projects. The workshop was facilitated by the University of Waterloo and took place online on December 05, 2022. The Quantum Colab is a partnership between the Stewart […]
December 14, 2022
Combined momentum- and real-space photoelectric probes of dimensionality-tuned Weyl semimetals
Summary The library of two-dimensional (2D) materials has recently grown to include topological insulators and semimetals. Their incorporation in special device geometries may lead to novel quantum electronics with enhanced functionalities. Weyl semimetals, in particular, offer the most robust form of topological protection. Recent results from our group indicate that Weyl nodes should be […]
March 12, 2019
Inverse Photoemission Spectroscopy of Quantum Materials
Summary Quantum materials that exhibit strong electron correlations lead to phenomena, such as superconductivity and topologically protected states, that are important for quantum computation, sensing, and other applications. For example, we may utilize symmetry protected topological states to make qubits that are robust against decoherence, while advances in high temperature superconductors may significantly reduce […]
September 20, 2018