Mathematical Physics

In mathematical physics, new problems in physics give rise to new mathematics to solve them, while new mathematics open doors to understandings of the physical universe. Newton invented modern calculus because he needed it to understand mechanics – and calculus went on to redefine all of physics. The development of quantum theory in the 20th century both spurred and was spurred by advances in mathematical fields such as linear algebra and functional analysis. Perimeter’s mathematical physics researchers continue this grand tradition. 

Freddy Cachazo's picture

Gluskin Sheff/Onex Freeman Dyson Chair in Theoretical Physics
Kevin Costello's picture

Krembil William Rowan Hamilton Chair in Theoretical Physics
Davide Gaiotto's picture

Krembil Galileo Galilei Chair in Theoretical Physics
Pedro Vieira's picture

The Clay Riddell Paul Dirac Chair in Theoretical Physics
Ben Webster's picture

Representation Theory, Low-dimensional Topology

Mathematical physics is where novel mathematical ideas find an elegant physical realization.