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Condensed Matter Physics

Condensed matter physics is the branch of physics that studies the properties of the large collections of atoms that compose both ordinary and exotic materials. Because it deals with properties of matter at ordinary chemical and thermal energy scales, condensed matter physics is the subfield of physics that has the largest number of direct practical applications, and has a large overlap with chemistry, materials science, and electrical engineering. It is also an intellectually challenging field that is currently producing many advances in fundamental physics.


The Condensed Matter Physics cluster at U of T is particularly strong in the study of quantum materials, which reveals unexpected and exotic behaviour when subjected to extreme conditions such as low temperature and/or high pressure. Physical properties of these materials are studied using various theoretical methods and experimental techniques, such as STM, quantum oscillations, neutron/x-ray scattering. The group also actively participate in international collaboration on quantum materials through the Canadian Institute for Advanced Research (CIfAR) network. Additional research activities in condensed matter physics are carried out by the quantum optics cluster and the Experimental Nonlinear Physics Group.

The Condensed Matter Physics group is also actively involved in the research activities at the Centre for Quantum Materials, and the HEATER (Highly Efficient Applications of Thermoelectrics Research) program.


Research Areas


Topological quantum materials


Quantum Criticality


Unconventional Superconductivity


Frustrated Magnetism and Spin Liquids


Complex oxide interfaces




Thermoelectric Materials



  • Condensed Matter Seminar (Typically Wednesdays at 12:10 in MP 606)
  • Condensed Matter Journal Club (CMJC) (Typically every other Friday at 2:00 pm in MP606.)
    Subscribe to our CMJC mailing list.

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