个人简介
David Cory holds the Canada Excellence Research Chair in Quantum Information Processing. He is a physical chemist working to develop quantum devices for sensing and computation. Earlier sensors have found applications in fields as varied as cancer diagnostics, materials processing for tires, improved sensitivity for oil exploration, and a sensor for dark matter searches. Two startups recently spun out of the lab develop quantum sensors with medical, biochemical and materials applications.
Spin-based quantum information processors
Magnetic resonance and its applications
Quantum complexity
Neutron interferometry
Associate, Perimeter Institute of Theoretical Physics
Chair Advisory Board of the Canadian Institute of Advanced Research’s Program in Quantum Information Processing, 2008-present
Member, Scientific Advisory Board, Brockhouse Institute, McMaster University, 2012-present
Member, Scientific Advisory Board, Shanghai Center for Complex Physics, 2012-present
Chair, Scientific Advisory Board, Quantum Valley Investment Fund, 2012-present
1987 PhD Case Western Reserve University
1981 BA Case Western Reserve University
研究领域
David Cory and his research team explore the experimental challenges of building small quantum processors. This is a diverse work place with researchers from engineering, science, and math working together. Our quantum processors are based on nuclear spins, electron spins, neutrons, persistent current superconducting devices and optics. Most experiments involve the use of hybrid systems composed of several types of quantum bits in an effort to push overall performance. A common theme in our studies is to engineer efficient, high fidelity, coherent control of open quantum systems.
近期论文
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Controlling Neutron Orbital Angular Momentum, C. W. Clark, R. Barankov, M. Huber, M. Arif, D. G. Cory and D. A. Pushin, 2015, Nature, 525, 504 – 506.
Demonstration of Open Quantum System Optimal Control in Dynamic Nuclear Polarization, S. Sheldon and D. G. Cory, 2015, Physical Reviews A, 92, 042102, 1-11.
Tensor Networks and Graphical Calculus for Open Quantum Systems, C. Wood, J. Biamonte, and D. G. Cory, 2015, Quantum Information & Computation 15, 759-811.
Cavity Cooling to the Ground State of an Ensemble Quantum System, C. J. Wood and D. G. Cory, 2016, Physical Review A, 93, 023414.
Practical Bayesian Tomography, C. Granade, J. Combes, and D. G. Cory, 2016, New Journal of Physics, 18, 033024.
Spin-Orbit States of Neutron Wave-Packets, J. Nsofini, D. Sarenac, C. Wood, D. G. Cory, M. Arif, C. Clark, M. Huber and D. Pushin, 2016, Physical Review A, Phys. Rev. A 94, 013605 (2016)
Quantum Information Approach to Dynamical Diffraction Theory, J. Nsofini, K. Ghofrani, C. Wood, D. Sarenac, D. G. Cory, and D. Pushin, 2016.
Spin-Orbit States of Neutron Wave-Packets, J. Nsofini, D. Sarenac, C. Wood, D. G. Cory, M. Arif, C. Clark, M. Huber and D. Pushin, 2016, Physical Reviews Letter.
A New Polarized Neutron Interferometry Facility at the NCNR, M. Huber, C. Shahi, M. Arif, D G Cory, T Mineeva, J Nsofini, D Sarenac, C Williams, D Pushin, 2016, Nuclear Inst. and Methods in Physics Research, A: Accelerators, Spectrometers, Detectors and Associated Equipment.
Superconducting Resonators Based on TiN/Tapering/NbN/Tapering/TiN Heterostructires, Y. Tang, H. Zhang, S. Kwon, H. Mohebbi, D. G. Cory, L. Peng, L. Gu, H. Guo, K. Jin, and Guo-Xing Miao, 2015.
A Sensitive Search for Strongly-Coupled Chameleon Scalar Fields using Neutron Interferometry, K. Li, M. Arif, D. G. Cory, R. Haun, B. Heacock, M. G. Huber, J. Nsofini, D. A. Pushin, P. Saggu, D. Sarenac, C. B. Shahi, V. Skavysh, W. M. Snow, and A. R. Young (INDEX collaboration), 2015.