Quantum mechanics redefines information and its fundamental properties. Researchers at Perimeter Institute work to understand the properties of quantum information and study which information processing tasks are feasible, and which are infeasible or impossible. This includes research in quantum cryptography, which studies the trade-off between information extraction and disturbance, and its applications. It also includes research in quantum error correction, which involves the study of methods for protecting information against decoherence. Another important side of the field is studying the application of quantum information techniques and insights to other areas of physics, including quantum foundations and condensed matter.
Format results
-
-
Classical and quantum indistinguishability
Simon Saunders University of Oxford
-
Topological quantum computing for beginners
John Preskill California Institute of Technology (Caltech) - Division of Physics Mathematics & Astronomy
-
Fault tolerant quantum dynamical decoupling
Daniel Lidar University of Southern California
-
-
A unified and generalized approach to quantum error correction
David Kribs University of Guelph
-
Quantum Filtering and Nonlinear Dynamics
Hideo Mabuchi California Institute of Technology
-
Quantum Dynamical Semigroups and Entanglement
Fabio Benatti University of Trieste
-
Quantum Optics and Quantum Information Processing with Superconducting Circuits
Alexandre Blais University of Sherbrooke
-
Simulating quantum correlations with and without communication
Valerio Scarani National University of Singapore
-
-
A simple proof of the threshold for fault-tolerant quantum computation
Daniel Gottesman University of Maryland, College Park