More on Quantum Gravity

Physics in the 20th century was dominated by two great revolutions in the way we think about the nature of the universe at the most fundamental level: quantum theory and relativity theory. Currently, they are physicists' best understanding of the gears and wheels behind how everything works; however, each has limitations and it remains an unfinished revolution.

Einstein created modern physics in 1905 with the invention of two revolutionary theories. His relativity theory changed the way we think about space, time, gravity and motion, while his quantum theory sparked a revolutionary new understanding of matter, atoms, and light. But as long as these remain separate domains, his revolution remains incomplete. When we seek to complete the job Einstein started we are working on the problem called quantum gravity.
Presently the field comprises older, well developed approaches as well as new ideas. At Perimeter we avoid prematurely embracing any one approach to this high risk/high payoff challenge. Instead, we have developed a unique research climate which draws inspiration from a diverse set of approaches, old and new. We especially encourage researchers to develop new ideas and attack the problem from new angles. This diverse atmosphere has made PI a leading centre for research in quantum gravity.   
Several ideas currently under investigation were invented recently at PI including relative locality, a novel approach to the nature of spacetime, shape dynamics, a reformulation of general relativity, and the consistent boundary formulation, which is a new approach to defining and computing quantum gravity theories. At the same time PI researchers continue to press forward with longstanding research programs in quantum gravity including loop quantum gravity, causal dynamical triangulations, causal sets, and string theory.  
PI researchers in quantum gravity also contribute to developments in other fields, including the foundations of quantum theory, cosmology, and quantum field theory.  




  • Spacetime Atoms and the Unity of Physics (Perimeter Public Lecture) - Fay Dowker describes black hole thermodynamics and argue that it is telling us that spacetime itself is granular or "atomic" at very tiny scales



The 20th century was dominated by two great revolutions in the way we think about the nature of the universe – but each has limitations and remain unfinished revolutions.