2017 - Fellow of the Royal Society of Canada Academy of Science
2006 - Fellow of American Physical Society (APS) Citation For contributions to optical quantum information science including optimal quantum measurements, quantum cryptography, and new protocols for quantum information processing
2005 - OSA Fellows For significant contributions to optical quantum information science and quantum optics, including development and assessment of optical implementations of quantum information protocols and tasks
Barry C. Sanders spends much of his time researching Quantum mechanics, Quantum entanglement, Qubit, Photon and Quantum information. All of his Quantum mechanics and Coherent states, Quantum algorithm, Quantum computer, Squashed entanglement and W state investigations are sub-components of the entire Quantum mechanics study. In his work, Mixed states and Holevo's theorem is strongly intertwined with State, which is a subfield of Quantum entanglement.
The Qubit study combines topics in areas such as Discrete mathematics, Hamiltonian and Combinatorics. His research in Photon intersects with topics in Master equation, Dipole and Quantum optics. His Quantum information research includes elements of Machine learning, Quantum chaos and Artificial intelligence.
His primary areas of study are Quantum mechanics, Quantum, Photon, Quantum entanglement and Quantum information. His study in Quantum algorithm, Quantum computer, Quantum network, Qubit and Quantum teleportation is carried out as part of his studies in Quantum mechanics. The study incorporates disciplines such as Quantum operation and Quantum process in addition to Quantum algorithm.
His Quantum study combines topics in areas such as Statistical physics and Topology. His research in Photon tackles topics such as Quantum optics which are related to areas like Coherent states. His studies link Theoretical computer science with Quantum information.
Barry C. Sanders mostly deals with Quantum, Topology, Quantum mechanics, Quantum computer and Quantum walk. His study in Quantum is interdisciplinary in nature, drawing from both Algorithm and Upper and lower bounds. His Topology research is multidisciplinary, relying on both Quantum information science and Quantum information processing.
His Quantum mechanics study focuses mostly on Photon and Astronomical interferometer. The various areas that Barry C. Sanders examines in his Quantum computer study include Error detection and correction, Superposition principle, Global optimization and Qubit. Barry C. Sanders works mostly in the field of Quantum walk, limiting it down to topics relating to Theoretical physics and, in certain cases, Floquet theory.
Barry C. Sanders mainly focuses on Quantum, Topology, Quantum walk, Theoretical physics and Photonics. His work carried out in the field of Quantum brings together such families of science as Topology, Upper and lower bounds and Chern class. His Topology research is multidisciplinary, incorporating elements of Ring, Quantum computer, Quantum information processing and Phase diagram.
Barry C. Sanders has researched Quantum computer in several fields, including Quantum information, Global optimization, Greedy algorithm and Qubit. His Quantum walk study deals with the bigger picture of Quantum mechanics. Barry C. Sanders has included themes like Topological invariants, Quantum optics and Floquet theory in his Theoretical physics study.
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Limitations on Practical Quantum Cryptography
Gilles Brassard;Norbert Lütkenhaus;Tal Mor;Barry C. Sanders.
Physical Review Letters (2000)
Optical quantum memory
Alexander I. Lvovsky;Barry C. Sanders;Wolfgang Tittel.
Nature Photonics (2009)
Entangled coherent states
Barry C. Sanders.
Physical Review A (1992)
Efficient Quantum Algorithms for Simulating Sparse Hamiltonians
Dominic W. Berry;Dominic W. Berry;Graeme Ahokas;Richard Cleve;Richard Cleve;Barry C. Sanders;Barry C. Sanders.
Communications in Mathematical Physics (2007)
Tripartite Quantum State Sharing
Andrew M. Lance;Thomas Symul;Warwick P. Bowen;Barry C. Sanders.
Physical Review Letters (2004)
Photon-Mediated Interactions Between Distant Artificial Atoms
Arjan F. van Loo;Arkady Fedorov;Kevin Lalumière;Barry C. Sanders.
Observation of topological edge states in parity-time-symmetric quantum walks
L. Xiao;X. Zhan;Z. H. Bian;K. K. Wang.
Nature Physics (2017)
Efficient classical simulation of continuous variable quantum information processes
Stephen D. Bartlett;Barry C. Sanders;Samuel L. Braunstein;Kae Nemoto.
Physical Review Letters (2002)
Graph states for quantum secret sharing
Damian Markham;Barry C. Sanders.
Physical Review A (2008)
Quantum walks in higher dimensions
Troy D. Mackay;Stephen D. Bartlett;Leigh T. Stephenson;Barry C. Sanders.
Journal of Physics A (2002)
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