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Theory of Condensed Matter
Research Highlights
Discovery of a weak topological insulating state and van Hove singularity in triclinic RhBi2
Kyungchan Lee, Gunnar F. Lange , Lin-Lin Wang, Brinda Kuthanazhi, Thaís V. Trevisan,
Na Hyun Jo, Benjamin Schrunk, Peter P. Orth, Robert-Jan Slager, Paul C. Canfield and Adam Kaminski
Dual-unitary circuit models of thermalization
Pieter W. Claeys and Austen Lamacraft
Time crystals in long-range classical noisy systems
Andrea Pizzi, Andreas Nunnenkamp, and Johannes Knolle.
Entangled quantum bits protected by symmetry
Shovan Dutta and Nigel Cooper
A new diagnostic for quantum chaos
Mohit Pandey, Pieter W. Claeys, David K. Campbell, Anatoli Polkovnikov, and Dries Sels
Theoretical Condensed Matter physics is about building models of physical processes, often driven by experimental data, generalising the solutions of those models to make predictions, and transferring the concepts gained into other areas. Theory plays an important role in understanding known phenomena and in predicting new ones.
With over seventy members, TCM is the largest university Condensed Matter Theory group in the country. Able to trace its history back for over sixty years, it has been home to many leading theoreticians.
Recent Research Highlights
Discovery of a weak topological insulating state and van Hove singularity in triclinic RhBi2
Kyungchan Lee, Gunnar F. Lange , Lin-Lin Wang, Brinda Kuthanazhi, Thaís V. Trevisan,
Na Hyun Jo, Benjamin Schrunk, Peter P. Orth, Robert-Jan Slager, Paul C. Canfield and Adam Kaminski
Dual-unitary circuit models of thermalization
Pieter W. Claeys and Austen Lamacraft
Time crystals in long-range classical noisy systems
Andrea Pizzi, Andreas Nunnenkamp, and Johannes Knolle.
Entangled quantum bits protected by symmetry
Shovan Dutta and Nigel Cooper
A new diagnostic for quantum chaos
Mohit Pandey, Pieter W. Claeys, David K. Campbell, Anatoli Polkovnikov, and Dries Sels