Raymond Laflamme | |
---|---|
Born | 1960 (age 56–57) Quebec City, Canada |
Fields |
Theoretical Physics Quantum Information |
Institutions |
Institute for Quantum Computing Los Alamos National Laboratory University of Waterloo Perimeter Institute for Theoretical Physics |
Alma mater | University of Cambridge |
Doctoral advisor | Stephen Hawking |
Doctoral students | David Poulin |
Known for |
Quantum error correction NMR quantum computing Linear optical quantum computing Gregory–Laflamme instability |
Raymond Laflamme is a Canadian physicist and founder and current director of the Institute for Quantum Computing at the University of Waterloo. He is also a professor in the Department of Physics and Astronomy at the University of Waterloo and an associate faculty member at Perimeter Institute for Theoretical Physics. Laflamme is currently a Canada Research Chair in Quantum Information.
As Stephen Hawking's PhD student, he first became famous for convincing Stephen Hawking that time does not reverse in a contracting universe, along with Don Page. Stephen Hawking told the story of how this happened in his famous book A Brief History of Time in the chapter The Arrow of Time. Later on Laflamme made a name for himself in quantum computing and quantum information theory, which is what he is famous for today. In 2005, Laflamme's research group created the world's largest quantum information processor with 12 qubits. Along with Phillip Kaye and Michele Mosca, he published An Introduction to Quantum Computing in 2006.
Laflamme's research focuses on understanding the impact of manipulating information using the laws of quantum mechanics, the development of methods to protect quantum information against noise through quantum control and quantum error correction for quantum computing and cryptography, the implementation of ideas and concepts of quantum information processing using nuclear magnetic resonance to develop scalable methods of control of quantum systems, and the development of blueprints for quantum information processors such as linear optical quantum computing.