Le contenu de cette page n’est pas disponible en français. Veuillez nous en excuser.

David Cory

Portrait de David Cory
Institute for Quantum Computing (IQC)

Area of Research:
Phone: (519) 888-4567 x37307

Dr. Cory is Professor of Chemistry at the University of Waterloo and researcher with the university's Institute for Quantum Computing. He is the CERC's chair in Quantum Information Processing. He is an experimental physicist working to develop spin-based quantum processors.

Research Interests

The aim of our group is to advance the applications of quantum information science. We do this through the design, fabrication, and deployment of quantum devices. We look to make quantum sensors and actuators that are coherent, controllable and have practical applications. To achieve this we explore hybrid quantum technologies that combine electron and nuclear spin with transport, optics and superconducting systems. Near term applications are focused on achieving magnetic resonance spectroscopy of molecularly thick films. Long term applications include quantum computing.

The program demands advances in the theory and practice of coherent control. In particular we are interested in efficiently characterizing errors and then correcting/avoiding them. A new avenue is to gain an understanding of systems engineering in the quantum setting. This is essential for integrating our quantum devices into more complex systems.

Positions Held

  • 2018 - present Director, Strategic Partnerships, Institute for Quantum Computing
  • 2014 - present Deputy Director, Research Institute for Quantum Computing
  • 2012- present Member, Advisory Board of the Shanghai Institute of Complex Physics
  • 2011- present Member of the Scientific Advisory Committee for Brockhouse Institute
  • 2010 - present University of Waterloo Professor of Chemistry
  • 2010 - present Chair of the Scientific Advisory Committee CIFAR's program in Quantum Information
  • 2010 - present Canada Research Chairs Canadian Excellence Research Chair in Quantum Devices
  • 1992 - 2010 Massachusetts Institute of Technology Professor of Nuclear Science and Engineering

Awards

  • Canada First Research Excellence Fund, Primary Investigator
  • Fellow, American Physical society
  • Fellow, Royal Society of Canada
  • Outstanding Performance Award, University of Waterloo
  • Canadian Excellence Research Chair in Quantum Information Processing

Recent Publications

  • Song, Y-Q., Yiqiao Tang, M. D. Hürlimann, and D. G. Cory. "Real-time optimization of nuclear magnetic resonance experiments." Journal of Magnetic Resonance 289 (2018): 72-78.
  • Sarenac, D., D. A. Pushin, M. G. Huber, D. S. Hussey, H. Miao, M. Arif, D. G. Cory et al. "Three Phase-Grating Moiré Neutron Interferometer for Large Interferometer Area Applications." Physical review letters 120, no. 11 (2018): 113201.
  • Rose, William, Holger Haas, Angela Q. Chen, Nari Jeon, Lincoln J. Lauhon, David G. Cory, and Raffi Budakian. "High-Resolution Nanoscale Solid-State Nuclear Magnetic Resonance Spectroscopy." Physical Review X 8, no. 1 (2018): 011030.
  • Heacock, Benjamin, Muhammad Arif, David G. Cory, T. Gnaeupel-Herold, R. Haun, Michael G. Huber, Michelle Elizabeth Jamer et al. "Increased interference fringe visibility from the post-fabrication heat treatment of a perfect crystal silicon neutron interferometer." Review of Scientific Instruments 89, no. 2 (2018): 023502.
  • Hincks, Ian, Christopher Granade, and David G. Cory. "Statistical inference with quantum measurements: methodologies for nitrogen vacancy centers in diamond." New Journal of Physics 20, no. 1 (2018): 013022.
  • Annabestani, Razieh, and David G. Cory. "Implementing a noise protected logical qubit in methyl groups via microwave irradiation." Quantum Information Processing 17, no. 2 (2018): 22.
  • Annabestani, Razieh, and David G. Cory. "Dipolar relaxation mechanism of long-lived states of methyl groups." Quantum Information Processing 17, no. 1 (2018): 15.
  • Nsofini, J., D. Sarenac, K. Ghofrani, M. G. Huber, M. Arif, D. G. Cory, and D. A. Pushin. "Noise refocusing in a five-blade neutron interferometer." Journal of Applied Physics 122, no. 5 (2017): 054501.
  • Tang, Yong-Chao, Sangil Kwon, Hamid R. Mohebbi, David G. Cory, and Guo-Xing Miao. "Phonon engineering in proximity enhanced superconductor heterostructures." Scientific Reports 7 (2017).
  • Pushin, D. A., D. Sarenac, D. S. Hussey, H. Miao, M. Arif, D. G. Cory, M. G. Huber et al. "Far-field interference of a neutron white beam and the applications to noninvasive phase-contrast imaging." Physical Review A 95, no. 4 (2017): 043637.
  • Nsofini, J., K. Ghofrani, D. Sarenac, D. G. Cory, and D. A. Pushin. "Quantum-information approach to dynamical diffraction theory." Physical Review A 94, no. 6 (2016): 062311.
  • Saggu, Parminder, Taisiya Mineeva, Muhammad Arif, D. G. Cory, Robert Haun, Ben Heacock, M. G. Huber et al. "Decoupling of a neutron interferometer from temperature gradients." Review of Scientific Instruments 87, no. 12 (2016): 123507.
  • Sarenac, Dusan, Michael G. Huber, Benjamin Heacock, Muhammad Arif, Charles W. Clark, David G. Cory, Chandra B. Shahi, and Dmitry A. Pushin. "Holography with a neutron interferometer." Optics express 24, no. 20 (2016): 22528-22535.
  • Tang, Yong‐Chao, Hui Zhang, Sangil Kwon, Hamid R. Mohebbi, David G. Cory, L.C. Peng, Lin Gu, HaiZhong Guo, KuiJuan Jin, and GuoXing Miao. "Superconducting Resonators Based on TiN/Tapering/NbN/Tapering/TiN Heterostructures." Advanced Engineering Materials (2016).
  • Nsofini, Joachim and Sarenac, Dusan and Wood, Christopher J and Cory, David G and Arif, Muhammad and Clark, Charles W and Huber, Michael G and Pushin, Dmitry A. (2016). Spin-Orbit States of Neutron Wavepackets. Physical Review A. 94(1): 013605.
  • Li, K., M. Arif, D. G. Cory, R. Haun, B. Heacock, M. G. Huber, J. Nsofini et al. "Neutron limit on the strongly-coupled chameleon field." Physical Review D 93, no. 6 (2016): 062001.
  • Shahi, C. B., M. Arif, D. G. Cory, T. Mineeva, J. Nsofini, D. Sarenac, C. J. Williams, M. G. Huber, and D. A. Pushin. "A new polarized neutron interferometry facility at the NCNR." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 813 (2016): 111-122.
  • Granade, Christopher, Joshua Combes, and D. G. Cory. "Practical Bayesian tomography." New Journal of Physics 18, no. 3 (2016): 033024.
  • Wood, Christopher J., and David G. Cory. "Cavity cooling to the ground state of an ensemble quantum system." Physical Review A 93, no. 2 (2016): 023414.
  • Pushin, D. A., M. Arif, R. Barankov, C. W. Clark, D. G. Cory, and M. G. Huber. "Twisting neutron waves." ACCOMPLISHMENTS and OPPORTUNITIES (2015): 34.
  • Sheldon, Sarah, and David G. Cory. "Demonstration of open-quantum-system optimal control in dynamic nuclear polarization." Physical Review A 92, no. 4 (2015): 042102.
  • Clark, Charles W., Roman Barankov, Michael G. Huber, Muhammad Arif, David G. Cory, and Dmitry A. Pushin. "Controlling neutron orbital angular momentum." Nature 525, no. 7570 (2015): 504-506.
  • C.W. Clark, R. Barankov, M.G. Huber, M. Arif, D.G. Cory, D.A. Pushin. "Controlling Neutron Orbital Angular Momentum." Nature (in press)
  • Pushin, D. A., M. G. Huber, M. Arif, C. B. Shahi, J. Nsofini, C. J. Wood, D. Sarenac, and D. G. Cory. "Neutron Interferometry at the National Institute of Standards and Technology." Advances in High Energy Physics 2015 (2015).
  • Hincks, I. N., C. E. Granade, T. W. Borneman, and D. G. Cory. "Controlling Quantum Devices with Nonlinear Hardware." Physical Review Applied 4, no. 2 (2015): 024012.
  • Mohebbi, Hamid Reza, Olaf WB Benningshof, Ivar Taminiau, Guo-Xing Miao, and David G. Cory. "Superconducting Coplanar Interdigital Filter With Robust Packaging." Applied Superconductivity, IEEE Transactions on 25, no. 3 (2015): 1-4.
  • Annabestani, R., D. G. Cory, and J. Emerson. "Quantum model of spin noise." Journal of Magnetic Resonance 252 (2015): 94-102.
  • Wiebe, Nathan, Christopher Granade, and David G. Cory. "Quantum bootstrapping via compressed quantum Hamiltonian learning." New Journal of Physics 17, no. 2 (2015): 022005.
  • Granade, Christopher, Christopher Ferrie, and D. G. Cory. "Accelerated randomized benchmarking." New Journal of Physics 17, no. 1 (2015): 013042.
  • Wood, Christopher J., Jacob D. Biamonte, and David G. Cory. "Tensor networks and graphical calculus for open quantum systems." Quantum Information & Computation 15, no. 9&10 (2015): 759-811.
  • Moussa, Osama, Ian Hincks, and David G. Cory. "Preparing and preserving the double quantum coherence in NV− centers in Diamond at low fields." Journal of Magnetic Resonance 249 (2014): 24-31.
  • Gumann, P., O. Patange, C. Ramanathan, H. Haas, O. Moussa, M. L. W. Thewalt, H. Riemann et al. "Inductive Measurement of Optically Hyperpolarized Phosphorous Donor Nuclei in an Isotopically Enriched Silicon-28 Crystal." Physical review letters 113, no. 26 (2014): 267604.
  • Wood, Christopher J., Mohamed O. Abutaleb, Michael G. Huber, Muhammad Arif, David G. Cory, and Dmitry A. Pushin. "Quantum correlations in a noisy neutron interferometer." Physical Review A 90, no. 3 (2014): 032315.
  • N. Wiebe, C.Granade, C.Ferrie, D.G. Cory, Hamiltonian learning and certification using quantum resources. Physical Review Letters 112.19 (2014): 190501. APA
  • Mandal, S., Utsuzawa, S., Cory, D. G., Hürlimann, M., Poitzsch, M., & Song, Y. Q. An ultra-broadband low-frequency magnetic resonance system. Journal of Magnetic Resonance, 242, 2014, 113-125.
  • N. Wiebe, C. Granade, C. Ferrie, D.G. Cory. "Quantum Hamiltonian learning using imperfect quantum resources." Physical Review A 89.4 (2014): 042314.
  • Mohebbi, H. R., Benningshof, O. W. B., Taminiau, I. A. J., Miao, G. X., & Cory, D. G. Composite arrays of superconducting microstrip line resonators. Journal of Applied Physics, 115(9), 2014, 094502.
  • Wood, Christopher J., Troy W. Borneman, and David G. Cory. "Cavity cooling of an ensemble spin system." Physical review letters 112.5 (2014): 050501.
  • Puzzuoli, D., Granade, C., Haas, H., Criger, B., Magesan, E., & Cory, D. G. Tractable simulation of error correction with honest approximations to realistic fault models. Physical Review A, 89(2), 2014, 022306.
  • F. Yan, S. Gustavsson, J. Bylander, X. Jin, F. Yoshihara, D. G. Cory, T. Orlando, Y. Nakamura, and W. Oliver, Rotating-frame relaxation as a noise spectrum analyzer of a superconducting qubit undergoing driven evolution, Nature Communications, 4, 2013, 2337, 8
  • O. Benningshof, H. Mohebbi, I. Taminiau, G. Miao, and D. G. Cory, Superconducting microstrip resonators for pulsed ESR of thin films, Journal of Magnetic Resonance, 230, 2013, 84-87
  • M. Cassidy, C. Ramanathan, D. G. Cory, J. W. Ager, and C. M. Marcus, Radical-free dynamic nuclear polarization using electronic defects in silicon, Physical Review B, 87, 2013, 161306
  • E. Magesan, D. Puzzuoli and D. G. Cory, Honest Modeling of Quantum Noise for Efficient Testing of Fault-Tolerant Circuits, Physical Reviews A, 87, 2013, 012324
  • M. Abutaleb, D. Pushin, M. HUber, C. Majkrzak, M. Arif, and D.G. Cory, Design of remnant magnetization FeCo V films as compact, heatless neutron spin rotators, 2012, Applied Physics Letters, 101, 182404
  • C. Ferrie, C. Granade, N. Weibe, D.G. Cory, Robust Online Hamiltonian Finding, New Journal of Physics, 2012, 14, 103013
  • Granade, C.E. and Ferrie, C. and Wiebe, N. and Cory, DG, Robust Online Hamiltonian Learning, New Journal of Physics, 2012, 14, 103013.**
  • Yan, F. and Bylander, J. and Gustavsson, S. and Yoshihara, F. and Harrabi, K. and Cory, D.G. and Orlando, T.P. and Nakamura, Y. and Tsai, J.S. and Oliver, W.D., Spectroscopy of low-frequency noise and its temperature dependence in a superconducting qubit, Physical Review B, 85, 2012, 174521
  • Gustavsson, S. and Bylander, J. and Yan, F. and Forn-Diaz, P. and Bolkhovsky, V. and Braje, D. and Fitch, G. and Harrabi, K. and Lennon, D. and Miloshi, J. and others, Driven dynamics and rotary echo of a qubit tunably coupled to a harmonic oscillator, Physical Review Letters, 108, 2012, 170503
  • T.W. Borneman, C. Granade, and D.G. Cory, Parallel Information Transfer in a Multi-Node Quantum Processor, Physical Review Letters, 108, 2012, 140502
  • F. Yan, S. Gustavsson, J. Bylander, X. Jin, F. Yoshihara, D. G. Cory, T. Orlando, Y. Nakamura, and W. Oliver, T1ρ experiment as a noise spectrum analyzer during driven evolution, 2012, Nature Physics
  • T. Borneman and D. G. Cory, Bandwidth Limited Control and Ring-down Suppression in High-Q Resonators, 2012, Journal of Magnetic Resonance, 225, 120-129.
  • Pushin, DA and Huber, MG and Arif, M. and Cory, DG, Experimental Realization of Decoherence-Free Subspace in Neutron Interferometry, Physical Review Letters, 107, 2011, 150401
  • T.W. Borneman, C.Granade, and D.G. Cory, Experimental Characterization of Coherent Magnetization Transport on a One-Dimensinal Spin System, New Journal of Physics, 13, 2011, 103015
  • J. Bylander, S. Gustavsson, F. Yan, F. Yoshihara, K. Harrabi, G. Fitch, D.G. Cory, Noise Spectroscopy through Dynamical Decoupling with a Superconducting Flux Qubit, Nature Physics, 7, 2011, 565-570
  • T. Hopper, S. Mandal, D.G. Cory, M. Hurlimann and Y.O. Song, Low-Frequency NMR with a Non-Resonant Circuit, Journal of Magnetic Resonance, 210, 2011, 69-74
  • A. Dementyev, D.G. Cory, C. Ramanathan, High-field Overhauser Dynamic Nuclear Polarization in Simicon Below the Metal-Insulator Transition, Journal of Chemical Physics, 134, 2011, 154511
  • C. Altafini, P. Cappellaro, D.G. Cory, Feedback Schemes for Radiation Damping Suppression in NMR: A Control-Theoretic Perspective, System & Control Letters, 59, 2010, 782-786
  • T.W. Bornemen, M.D. Hurlimann, and D.G. Cory, Application of Optimal Control to CPMG Refocusing Pulse Design, Journal of Magnetic Resonance, 207, 2010, 220-233
  • C.A. Ryan, J.S. Hodges, and D.G. Cory, Robust decoupling techniques to extend quantum coherence in diamond, Physical Review Letters, 105, 2010, 200402
  • Cecilia C. Lopez, Marcus Silva, Joseph Emerson, and D. G. Cory, Using an experimentally faulty Quantum Information Processor to characterize its own performance, Physical Review A, 2010.
  • O. Moussa, C. A. Ryan, D. G. Cory and R. Laflamme, Testing Contextuality on Quantum Ensembles with One Clean Qubit, Physical Review Letters, 2010, 104, 160501.
  • Lopez CC, Bendersky A, Paz JP, and D. G. Cory, Progress Toward Scalable Tomography of Quantum Maps Using Twirling-Bases Methods and Information Hierarchies, Physical Review A, 2010, 81, 062113.
  • Gerardi, C. and Cory, D. and Buongiorno, J. and Hu, L.W. and McKrell, T., Nuclear magnetic resonance-based study of ordered layering on the surface of alumina nanoparticles in water, Applied Physics Letters, 95, 2009, 253104.
  • C. Gerardi, D. G. Cory, J. Buongiorno, L-W. Hu, T. McKrell, Nuclear Magnetic Resonance-Based Study of Ordered Layering on the Surface of Alumina Nanoparticles in Water, Applied Physics Letters, 2009, 95, 253104.
  • C. C. Lopez, B. L'evi, D. G. Cory, Error Characterization in Quantum Information Processing: A Protocol for Analyzing Spatial Correlations and its Experimental Implementation, Physical Review A, 79, 2009, 042328
  • D. A. Pushin, M. Arif and D. G. Cory, Decoherence-free Neutron Interferometry, Physical Review A, 2009, 79, 05636.
  • W. Zhang, P. Cappellaro, N. Antler, B Pepper, D. G. Cory, V. Dobrovitski, C. Ramanathan, and L. Viola, NMR multiple quantum coherences in quasi-one-dimensional spin systems: Comparison with ideal spin-chain dynamics, Physical Review A, 2009, 80, 052323.
  • J. W. Aptekar, M. C. Cassidy, A.C. Johnson, R. A. Barton, M. Y. Lee, C. Vo, M.N. Anahter, S. N. Bhatia, C. Ramanathan, D. G. Cory, A. L. Hill, R. W. Mair, M. S. Rosen, R. L. Walsworth, and C. M. Marcus, Hyperpolarized Long-T1 Silicon Nanoparticles for Magnetic Resonance Imaging, ACS, Nano, 2009, 3, 4003-4008.
  • L. Jiang, J. S. Hodges, J. R. Maze, P. Maurer, J. M. Taylor, D. G. Cory, P. R. Hemmer, R. L. Walsworth, A. Yacoby, A. S. Zibrov, M. D. Lukin, Repatitive Readout of Single Electron Spin via Quantum Logic with Nuclear Spin Ancillae, Science, 2009, 326, 267-272.
  • NMR study of optically hyperpolarized phosphorus donor nuclei in silicon P Gumann, H Haas, S Sheldon, L Zhu, MLW Thewalt, DG Cory arXiv preprint arXiv: 1807.08746
  • Hamiltonian Learning with Online Bayesian Experiment Design in Practice I Hincks, T Alexander, M Kononenko, B Soloway, DG Cory arXiv preprint arXiv: 1806.02427
  • Methods for preparation and detection of neutron spin-orbit states D Sarenac, J Nsofini, I Hincks, M Arif, CW Clark, DG Cory, MG Huber arXiv preprint arXiv: 1803.02295
  • Bayesian Inference for Randomized Benchmarking Protocols I Hincks, JJ Wallman, C Ferrie, C Granade, DG Cory arXiv preprint arXiv: 1802.00401
  • Entanglement of two non-interacting qubits via a mesoscopic system MS Mirkamali, DG Cory, J Emerson arXiv preprint arXiv: 1802.05320
  • Magnetic Field Dependent Microwave Losses in Superconducting Niobium Microstrip Resonators S Kwon, AF Roudsari, OWB Benningshof, YC Tang, HR Mohebbi arXiv preprint arXiv: 1802.05183
  • Generation of a lattice of spin-orbit beams via coherent averaging D Sarenac, DG Cory, J Nsofini, I Hincks, P Miguel, M Arif, CW Clark arXiv preprint arXiv: 1710.03169
  • Granade, Christopher, Christopher Ferrie, Ian Hincks, Steven Casagrande, Thomas Alexander, Jonathan Gross, Michal Kononenko, and Yuval Sanders.(2016). QInfer: Statistical inference software for quantum applications. arXiv preprint. arXiv: 1610.00336
  • Pushin, Dmitry A and Sarenac, Dusan and Hussey, Dan and Miao, Houxun and Arif, Muhammad and Cory, David G and Huber, Michael G and Jacobson, David and LaManna, Jacob and Parker, Joseph D and others. (2016). Broadband Neutron Interferometer. arXiv preprint arXiv: 1606.03445.
  • Pushin, Dmitry A., Dusan Sarenac, Dan Hussey, Houxun Miao, Muhammad Arif, David G. Cory, Michael G. Huber et al. "Broadband Neutron Interferometer." arXiv preprint arXiv: 1606.03445 (2016).
  • Nsofini, J., K. Ghofrani, D. Sarenac, D. G. Cory, and D. A. Pushin. "Quantum Information Approach to Dynamical Diffraction Theory." arXiv preprint arXiv: 1605.02596 (2016).
  • Sheldon, Sarah, and David G. Cory. "Demonstration of Open Quantum System Optimal Control in Dynamic Nuclear Polarization." arXiv preprint arXiv: 1507.02610 (2015).
  • Wood, Christopher J., and David G. Cory. "Cavity Cooling to the Ground State of an Ensemble Quantum System." arXiv preprint arXiv: 1506.03007 (2015).
  • Hincks, Ian N., Christopher Granade, Troy W. Borneman, and D. G. Cory. "Accounting for Classical Hardware in the Control of Quantum Devices." arXiv preprint arXiv: 1409.8178 (2014).
  • Granade, C.E. and Ferrie, C. and Wiebe, N. and Cory, DG, Robust Online Hamiltonian Learning, arXiv: 1207.1655
  • High-Fidelity Control in High-Q Resonators, Borneman, T.W. and Cory, D.G., arXiv: 1207.1139v1
  • Ferrie, C. and Granade, C.E. and Cory, DG, Adaptive Hamiltonian Estimation Using Bayesian Experimental Design, arXiv: 1111.0935
  • Hincks, I.N. and Cory, D.G. and Ramanathan, C., Equivalent Hamiltonians for State to State Transfer in the Case of Partial Quantum Control, arXiv: 1111.0944
  • Ferrie, C. and Granade, C.E. and Cory, DG, How to best sample a periodic probability distribution, or on the accuracy of Hamiltonian finding strategies, arXiv: 1110.3067
  • Experimental Demonstration of Localization on a Quantum Information Processor, Michael K. Henry, Joseph Emerson, David G. Cory, arxiv:quant-ph/512204
  • A solid-state NMR three-qubit homonuclear system for quantum information processing: control and characterization, Jonathan Baugh, Osama Moussa, Colm A. Ryan, Raymond Laflamme, Chandrasekhar Ramanathan, Timothy F. Havel, David G. Cory, arxiv:quant-ph/510115
  • NMR Quantum Information Processing and Entanglement, Raymond Laflamme, David G. Cory, Camille Negrevergne, Lorenza Viola, arxiv:quant-ph/110029
  • Increased interference fringe visibility from the post fabrication heat treatment of a perfect crystal silicon neutron interferometer M Huber, B Heacock, A Young, M Arif, DG Cory, DA Pushin, R Haun Bulletin of the American Physical Society
  • Characterizing microwave loss mechanisms induced by magnetic fields in microstrip superconducting resonators. S Kwon, A Roudsari, O Benningshof, YC Tang, H Mohebbi, I Taminiau, ... Bulletin of the American Physical Society
  • Optical Hyperpolarization of Phosphorus Donor Nuclei and Bound Exciton Capture Rates in Isotopically Purified Silicon H Haas, R Deshpande, T Alexander, D Cory Bulletin of the American Physical Society
  • Li, Lin, Hui Zhang, Xiao-Dong Ma, George Nichols, Sangil Kwon, David Cory, Chang-Gan Zeng, and Guo-Xing Miao. (2017). Josephson Tunneling between Superconducting Topological Surface States. Bulletin of the American Physical Society. 62
  • Huber, M. G., D. Sarenac, B. Heacock, M. Arif, C. W. Clark, D. G. Cory, C. B. Shahi, and D. A. Pushin.(2017). Fork Dislocation Hologram Created Using Neutron Interferometry. Bulletin of the American Physical Society. 62
  • Rose, William, Holger Haas, Angela Chen, David Cory, and Raffi Budakian. (2017). Optimal Control-Enabled Imaging and Spectroscopy using a Nanowire Magnetic Resonance Force Microscope. Bulletin of the American Physical Society. 62
  • Alexander, Thomas, Holger Haas, Rahul Deshpande, Patryk Gumann, and David Cory. (2016). Optical hyperpolarization and inductive readout of 31P donor nuclei in natural abundance single crystal 29Si. APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts.
  • Sarenac, Dusan, Chandra Shahi, Taisiya Mineeva, Christopher J. Wood, Michael G. Huber, Muhammad Arif, Charles W. Clark, David G. Cory, and Dmitry A. Pushin. "Neutron interferometry for precise characterization of quantum systems." In APS Meeting Abstracts. 2016.
  • Mineeva, Taisiya, M. Arif, M. G. Huber, C. B. Shahi, C. W. Clark, D. G. Cory, J. Nsofini, D. Sarenac, and D. A. Pushin. "Neutron interferometry with cold stage." In APS March Meeting Abstracts. 2016.
  • Pushin, Dmitry A., Roman A. Barankov, Charles W. Clark, Michael G. Huber, Muhammad Arif, and David G. Cory. "Generation and detection of neutron beams with orbital angular momentum." Bulletin of the American Physical Society 60 (2015).
  • Saggu, Parminder, D. Cory, D. Pushin, J. Nsofini, D. Sarenac, M. Huber, M. Arif et al. "Neutron interferometry in a temperature controlled vacuum environment for the search of dark energy and other precision experiments." In APS April Meeting Abstracts, vol. 1, p. 6008. 2015.
  • Li, K., M. Arif, D. Cory, R. Haun, B. Heacock, M. Huber, J. Nsofini et al. "Search for strongly coupled Chameleon scalar field with neutron interferometry." In APS April Meeting Abstracts, vol. 1, p. 2006. 2015.
  • Tang, Yong-Chao, David G. Cory, and Guo-Xing Miao. "Proximity Enhancement in Epitaxial Tri-layer Superconducting Microstrip Line Resonators." In APS Meeting Abstracts, vol. 1, p. 23006. 2015.
  • Cory, David. "Cavity Cooling for Ensemble Spin Systems." In APS Meeting Abstracts, vol. 1, p. 20004. 2015.
  • Tang, Yong-Chao, Olaf WB Benningshof, Hamid Reza Mohebbi, David G. Cory, and Guo-Xing Miao. "Evaluation of quality factors in superconductor microresonators with proximity enhancement." In Nanotechnology (IEEE-NANO), 2014 IEEE 14th International Conference on, pp. 347-351. IEEE, 2014.
  • Patryk Gumann, Chandrasekhar Ramanathan, Om Patange, Osama Moussa, Mike Thewalt, Helge Riemann, Nikolay Abrosimov, Peter Becker, Hans-Joachim Pohl, Kohei Itoh, David G Cory. Nuclear Spin Polarization of Phosphorus Donors in Silicon. Direct Evidence from 31P-Nuclear Magnetic Resonance. Bulletin of the American Physical Society, 59, 2014
  • Troy Borneman, Olaf Benningshof, Hamid Mohebbi, Mohamad Niknam, Ivar Taminiau, Christopher Wood, Daniel Puzzuoli, David Cory. Pulsed Electron Spin Resonance Quantum Information Processing with Stable Organic Free-Radical Spin Samples. Bulletin of the American Physical Society, 58, 2013
  • Osama Moussa, Ian Hincks, David G Cory. Double quantum coherence control in NV-centers in Diamond at small fields. Bulletin of the American Physical Society, 58, 2013
  • Daniel Puzzuoli, Easwar Magesan, Christopher Granade, David Cory. Modeling Quantum Noise for efficient testing of fault-tolerant circuits. American Physical Society, 58, 2013
  • Bylander, J. and Yan, F. and Gustavsson, S. and Yoshihara, F. and Cory, D.G. and Nakamura, Y. and Oliver, W.D., Very-low-frequency spectroscopy of both flux and tunnel-coupling noise in a flux qubit, Bulletin of the American Physical Society, 2012
  • Ramanathan, C. and Lee, J. and Cappellaro, P. and Viola, L. and Cory, D., Experimental characterization of coherent dynamics in a spin chain, Bulletin of the American Physical Society, 57, 2012
  • Yan, F. and Gustavsson, S. and Bylander, J. and Yoshihara, F. and Nakamura, Y. and Cory, D. and Oliver, W., $ T\_ $\{$1$\backslash$ rho$\}$ $ experiment as a noise spectrum analyzer, Bulletin of the American Physical Society, 57, 2012
  • Gustavsson, S. and Bylander, J. and Yan, F. and Forn-Diaz, P. and Bolkhovsky, V. and Braje, D. and Spector, S. and Turek, B. and Welander, P.B. and Yoshihara, F. and others, Driven dynamics of a qubit tunably coupled to a harmonic oscillator, Bulletin of the American Physical Society, 2012
  • Gumann, P. and Scherschligt, J. and Hussey, D. and Jacobson, D. and Cory, D. and Taminiau, I., 3He-4He liquid mixtures investigated by neutron imaging technique at low temperatures, Bulletin of the American Physical Society, 57, 2012

Seminars

  • Overview of Transformative Quantum Technologies, Canadian Graduate Quantum Conference, Canada First Research Excellence Fund
  • Quantum Information Enabled Neutron Physics, Neutron Scattering Society of America
  • The Future is QUANTUM, Canadian Club of Ottawa
  • Things you can do with a Quantum Device that you cannot do in the Classical World, STEMINISM
  • Electron Spin Control with High Q Superconducting Resonators
  • Electron Spin Control with High Q Superconducting Resonators, International Symposium on Mixed and Augmented Reality (ISMAR)
  • Spin Orbit States of Neutron Beams, CAP Conference
  • Quantum Materials, Characterization and Devices; Conference on Topological Orders and Emergent Spacetime on Quantum Simulators, Shanghai, China
  • Quantum Characterization of Materials; Quantum Information and Computing for Chemistry Workshop, Arlington, Virginia, United States
  • Quantum Characterization of Materials; Materials Characterization Workshop, Newark, Delaware, United States
  • Quantum Devices, Future of Quantum Technologies; Lincoln Labs, Lexington, Massachusetts, United Kingdon
  • Collective Spin Interactions; 57th Experimental Nuclear Magnetic Resonance Conference, Pittsburg, Pennsylvania, United States
  • Future Quantum Devices; CERC Summit, Ottawa, ON, Canada
  • Spin/Orbit States of Neutrons; Workshop on Matter-Wave Interferometry, College Park, Massachusetts, United States
  • The Impact of Quantum Devices. CERC Summit, Waterloo, Canada
  • Progress Towards a 100 Qubit Quantum Computer, UCLA
  • Cavity Cooling for Ensemble Spin Systems, APS March Meeting
  • Quantum Devices. Defence Research and Development Canada Presentation, Ottawa, Canada
  • Tools for Scaling Up. IBM Seminar, New York, United States
  • The Impact of Quantum Devices. National Institute of Standards and Technology Seminar, Gaithersburg, United States
  • Engineering Quanutm Devices. Guelph-Waterloo Centre for Graduate Studies in Chemistry, Guelph, Canada
  • Cavity Cooling for Ensemble Spin Systems. American Physical Society March Meeting, San Antonio, United States
  • Realizing Quantum Information Processors, Louisiana State University
  • Quantum Sensors, AAAS 2014 Annual Meeting
  • Cavity Cooling Spin Quibits, BIT Nano Science and Technology
  • Quantum Computing with Spins, University of Science and Technology China
  • Coupling Electron Spins to Superconductors, Rocky Mountain Conference on Magnetic Resonance
  • Realizing Quantum Information Processors, 13th Canadian Workshop on Information Theory
  • PIRSA:16040000, PSI 2015/2016 Explorations in Quantum Information - David Cory - 9, 2016-04-01, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030007, PSI 2015/2016 Explorations in Quantum Information - David Cory - 8, 2016-03-31, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030006, PSI 2015/2016 Explorations in Quantum Information - David Cory - 7, 2016-03-30, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030005, PSI 2015/2016 Explorations in Quantum Information - David Cory - 6, 2016-03-29, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030004, PSI 2015/2016 Explorations in Quantum Information - David Cory - 5, 2016-03-28, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030003, PSI 2015/2016 Explorations in Quantum Information - David Cory - 4, 2016-03-24, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030002, PSI 2015/2016 Explorations in Quantum Information - David Cory - 3, 2016-03-23, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030001, PSI 2015/2016 Explorations in Quantum Information - David Cory - 2, 2016-03-22, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:16030000, PSI 2015/2016 Explorations in Quantum Information - David Cory - 1, 2016-03-21, PSI 2015/2016 Explorations in Quantum Information - David Cory
  • PIRSA:15040001, Explorations in Quantum Information-14, 2015-04-02, Explorations in Quantum Information
  • PIRSA:15040000, Explorations in Quantum Information-13, 2015-04-01, Explorations in Quantum Information
  • PIRSA:15030033, Explorations in Quantum Information-12, 2015-03-31, Explorations in Quantum Information
  • PIRSA:15030032, Explorations in Quantum Information-11, 2015-03-30, Explorations in Quantum Information
  • PIRSA:15030029, Explorations in Quantum Information-10, 2015-03-27, Explorations in Quantum Information
  • PIRSA:15030028, Explorations in Quantum Information-9, 2015-03-26, Explorations in Quantum Information
  • PIRSA:15030027, Explorations in Quantum Information-8, 2015-03-25, Explorations in Quantum Information
  • PIRSA:15030026, Explorations in Quantum Information-7, 2015-03-24, Explorations in Quantum Information
  • PIRSA:15030025, Explorations in Quantum Information-6, 2015-03-23, Explorations in Quantum Information
  • PIRSA:15030022, Explorations in Quantum Information-5, 2015-03-20, Explorations in Quantum Information
  • PIRSA:15030021, Explorations in Quantum Information-4, 2015-03-19, Explorations in Quantum Information
  • PIRSA:15030020, Explorations in Quantum Information-3, 2015-03-18, Explorations in Quantum Information
  • PIRSA:15030019, Explorations in Quantum Information-2, 2015-03-17, Explorations in Quantum Information
  • PIRSA:15030018, Explorations in Quantum Information-1, 2015-03-16, Explorations in Quantum Information
  • PIRSA:14040012, 13/14 PSI - Explorations in Quantum Information - Lecture 15, 2014-04-04, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14040011, 13/14 PSI - Explorations in Quantum Information - Lecture 14, 2014-04-03, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14040010, 13/14 PSI - Explorations in Quantum Information - Lecture 13, 2014-04-02, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14040009, 13/14 PSI - Explorations in Quantum Information - Lecture 12, 2014-04-01, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030043, 13/14 PSI - Explorations in Quantum Information - Lecture 11, 2014-03-31, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030039, 13/14 PSI - Explorations in Quantum Information - Lecture 9, 2014-03-27, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030040, 13/14 PSI - Explorations in Quantum Information - Lecture 10, 2014-03-27, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030038, 13/14 PSI - Explorations in Quantum Information - Lecture 8, 2014-03-26, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030037, 13/14 PSI - Explorations in Quantum Information - Lecture 7, 2014-03-25, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030036, 13/14 PSI - Explorations in Quantum Information - Lecture 6, 2014-03-24, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030033, 13/14 PSI - Explorations in Quantum Information - Lecture 5, 2014-03-21, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030032, 13/14 PSI - Explorations in Quantum Information - Lecture 4, 2014-03-20, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030031, 13/14 PSI - Explorations in Quantum Information - Lecture 3, 2014-03-19, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030030, 13/14 PSI - Explorations in Quantum Information - Lecture 2, 2014-03-18, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:14030029, 13/14 PSI - Explorations in Quantum Information - Lecture 1, 2014-03-17, 13/14 PSI - Explorations in Quantum Information
  • PIRSA:13040037, 12/13 PSI - Explorations on Quantum Information Lecture 14, 2013-04-05, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13040036, 12/13 PSI - Explorations on Quantum Information Lecture 13, 2013-04-04, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13040035, 12/13 PSI - Explorations on Quantum Information Lecture 12, 2013-04-03, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13040034, 12/13 PSI - Explorations on Quantum Information Lecture 11, 2013-04-02, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13040033, 12/13 PSI - Explorations on Quantum Information Lecture 10, 2013-04-01, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030064, 12/13 PSI - Explorations on Quantum Information Lecture 9, 2013-03-28, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030063, 12/13 PSI - Explorations on Quantum Information Lecture 8, 2013-03-27, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030062, 12/13 PSI - Explorations on Quantum Information Lecture 7, 2013-03-26, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030061, 12/13 PSI - Explorations on Quantum Information Lecture 6, 2013-03-25, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030058, 12/13 PSI - Explorations on Quantum Information Lecture 5, 2013-03-22, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030057, 12/13 PSI - Explorations on Quantum Information Lecture 4, 2013-03-21, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030056, 12/13 PSI - Explorations on Quantum Information Lecture 3, 2013-03-20, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030055, 12/13 PSI - Explorations on Quantum Information Lecture 2, 2013-03-19, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:13030054, 12/13 PSI - Explorations on Quantum Information Lecture 1, 2013-03-18, 12/13 PSI - Explorations on Quantum Information
  • PIRSA:12030022, Explorations in Quantum Information - Lecture 15, 2012-03-30, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030021, Explorations in Quantum Information - Lecture 14, 2012-03-29, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030020, Explorations in Quantum Information - Lecture 13, 2012-03-28, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030019, Explorations in Quantum Information - Lecture 12, 2012-03-27, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030018, Explorations in Quantum Information - Lecture 11, 2012-03-26, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030015, Explorations in Quantum Information - Lecture 10, 2012-03-23, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030014, Explorations in Quantum Information - Lecture 9, 2012-03-22, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030013, Explorations in Quantum Information - Lecture 8, 2012-03-21, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030012, Explorations in Quantum Information - Lecture 7, 2012-03-20, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030011, Explorations in Quantum Information - Lecture 6, 2012-03-19, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030008, Explorations in Quantum Information - Lecture 5, 2012-03-16, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030007, Explorations in Quantum Information - Lecture 4, 2012-03-15, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030006, Explorations in Quantum Information - Lecture 3, 2012-03-14, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030005, Explorations in Quantum Information - Lecture 2, 2012-03-13, 11/12 PSI - Explorations in Quantum Information
  • PIRSA:12030004, Explorations in Quantum Information - Lecture 1, 2012-03-12, 11/12 PSI - Explorations in Quantum Information