Professor, Associate Dean (Graduate) of Arts & Science
Faculty, Engineering & Applied Physics, Condensed Matter Physics & Optics
Physics, Engineering Physics & Astronomy
Centre for Nanophotonics
Arts & Science
Assistant Professor
Faculty, Astronomy, Astrophysics & Relativity
Physics, Engineering Physics & Astronomy
Arts & Science
Professor
Faculty, Particle Astrophysics
Physics, Engineering Physics & Astronomy
Arts & Science
Professor (Cross-appointed from Mechanical & Materials Engineering)
Faculty, Engineering & Applied Physics
Physics, Engineering Physics & Astronomy
Arts & Science
Associate Professor, Graduate Chair
Faculty, Particle Astrophysics
Physics, Engineering Physics & Astronomy
McDonald Institute
Arts & Science
Professor Emeritus
Faculty, Engineering & Applied Physics
Physics, Engineering Physics & Astronomy
Arts & Science
Professor (Cross-appointed from Chemistry)
Faculty, Condensed Matter Physics & Optics
Physics, Engineering Physics & Astronomy
Arts & Science
CHE 409 or CHE 314, Chernoff Hall
Professor (Cross-appointed from Geophysics)
Faculty, Engineering & Applied Physics
Physics, Engineering Physics & Astronomy
Arts & Science
Associate Professor
he/him
Faculty, Particle Astrophysics, Astronomy, Astrophysics & Relativity
Physics, Engineering Physics & Astronomy
McDonald Institute
Arts & Science
Associate Professor-Trent University
Affiliated Adjunct Faculty
Physics, Engineering Physics & Astronomy
Arts & Science
Condensed matter physics is the study of materials and patterns which can be constructed from atoms and molecules, seeking simple ways to express the origins of the diversity of physical properties which emerge from the essential ingredients of electrons, nuclei, and electromagnetic forces. My research program focuses on understanding electronic properties, which are of tremendous technological importance and present fascinating conceptual puzzles.
Much of our current ability to describe the materials we use, such as metals, semiconductors, insulators and superconductors, arises from the fact that in some cases a single type of energy dominates the electronic behavior. However, this is not always the case, and in fact systems in which a delicate balance is achieved between competing interactions are often the most important for applications while also being the most challenging to understand.
Some topics of current interest are the influence of disorder on systems with strong electron-electron interactions and the effect of electron-electron interactions on systems with disorder-induced localization.
Queen's 2015 Nobel Prize in Physics
