David G. Cory Explained

David G. Cory
Workplaces:Bruker Corporation
Massachusetts Institute of Technology
University of Waterloo
Perimeter Institute for Theoretical Physics
Alma Mater:Case Western Reserve University
Thesis Title:Applications of Cross Polarization Spin Dynamics in Solids
Thesis Url:https://books.google.com/books?id=CWfLNwAACAAJ
Thesis Year:1987
Doctoral Advisor:William M. Ritchey
Doctoral Students:Paola Cappellaro
Known For:NMR quantum computer
Quantum information processing
Quantum control
Neutron interferometry
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David G. Cory is a Professor of Chemistry at the University of Waterloo[1] where he holds the Canada Excellence Research Chair in Quantum Information Processing.[2] He works at the Institute for Quantum Computing, and is also associated with the Waterloo Institute for Nanotechnology.

Education and career

Cory was educated at Case Western Reserve University, earning a bachelor's degree there in 1981 and a Ph.D. in chemistry in 1987.[3] [4] He carried out postdoctoral research at Radboud University Nijmegen in the Netherlands and at Naval Research Laboratory in Washington, D.C. He was a Professor of Nuclear Engineering at Massachusetts Institute of Technology prior to his 2010 appointment at Waterloo. At MIT, he worked on NMR, including his work on NMR quantum computation.[5] [6] Together with Amr Fahmy and Timothy Havel he developed the concept of pseudo-pure states and performed the first experimental demonstrations of NMR quantum computing.[7]

Cory's research also concerns the realization and application of quantum control in various physical systems and devices. In 2015, he and teams from University of Waterloo, National Institute of Standards and Technology and Boston University demonstrated the generation and control of orbital angular momentum of neutron beams using a fork-dislocation grating,[8] extending the existing work in optical and electron beams to neutrons. They subsequently demonstrated the control of both the spin and orbital angular momentum degrees of freedom of neutron beams.[9] [10]

See also

Notes and References

  1. https://services.iqc.uwaterloo.ca/people/profile/dcory/ Faculty profile
  2. http://www.cerc.gc.ca/chairholders-titulaires/cory-eng.aspx David Cory
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  4. Cory . David G. . 1987 . Applications of cross polarization spin dynamics in solids . Case Western Reserve University . 16259096 .
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  7. Cory . David G. . Fahmy . Amr F. . Havel . Timothy F. . 1997-03-04 . Ensemble quantum computing by NMR spectroscopy . Proceedings of the National Academy of Sciences . en . 94 . 5 . 1634–1639 . 10.1073/pnas.94.5.1634 . 0027-8424 . 19968 . 9050830. 1997PNAS...94.1634C . free .
  8. Clark . Charles W. . Barankov . Roman . Huber . Michael G. . Arif . Muhammad . Cory . David G. . Pushin . Dmitry A. . 2015-09-23 . Controlling neutron orbital angular momentum . Nature . en . 525 . 7570 . 504–506 . 10.1038/nature15265 . 26399831 . 2015Natur.525..504C . 4454300 . 0028-0836.
  9. Sarenac . D . Nsofini . J . Hincks . I . Arif . M . Clark . Charles W . Cory . D G . Huber . M G . Pushin . D A . 2018-10-10 . Methods for preparation and detection of neutron spin-orbit states . New Journal of Physics . 20 . 10 . 103012 . 10.1088/1367-2630/aae3ac . 1367-2630 . 8634251 . 34858077. 1803.02295 . 2018NJPh...20j3012S .
  10. Sarenac . Dusan . Kapahi . Connor . Chen . Wangchun . Clark . Charles W. . Cory . David G. . Huber . Michael G. . Taminiau . Ivar . Zhernenkov . Kirill . Pushin . Dmitry A. . 2019-10-08 . Generation and detection of spin-orbit coupled neutron beams . Proceedings of the National Academy of Sciences . en . 116 . 41 . 20328–20332 . 10.1073/pnas.1906861116 . 0027-8424 . 6789912 . 31548384. 1904.09520 . 2019PNAS..11620328S . free .

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