NSF Quantum Information on a Chip Workshop

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Transcription:

NSF Quantum Information on a Chip Workshop Monday Oct. 12, 2015 Padua, 12 14 Oct. 2015 University of Padua, Palazzo del Bo Archivio Antico 8:30am-10:20am Opening session, (30 Dominique Dagenais, NSF welcome address Stefano Lami Italian Embassy in US in the Quantum Information Cooperation Tommaso Calarco, U Ulm, D - in teleconference - Fostering EC and USA cooperation on Quantum Information on a Chip Organizers introduction: orientation for the attendees on what the workshop is about Focus on Computation Viewpoint: Ian Walmsley, University of Oxford, UK Quantum Initiative (40 Antonio Badolato, U of Rochester, Chip-integrated nanophotonic structures for quantum devices (20 Paul S. Davids, Sandia Lab, Sandia s quantum chip-scale program (20 10:20am-10:50am 10:50am -12:50am continuation Viewpoint: Fabio Sciarrino, Sapienza U of Rome, Photonics Quantum Information on a chip (40 Dirk Englund, MIT, Quantum information processing with photons and spins on photonics integrated circuits (20 Tim Bartley, U Paderborn, Integrated non-linear quantum optics (20 Andreas Wallraff, ETH, CH, Photons, Qubits and Computers - A Quantum Mechanics Lab on a Chip (20 12:50 2:00 pm Lunch Break 2:00 4:00 pm Focus on Communications and Frequency Conversion - 6 contributed 20: 2h Eleni Diamanti, Telecom Paris Tech., Continuous-variable quantum cryptography on silicon (20 Alexander Sergienko Boston U, Second Order Nonlinear Processes and Linear Optics Circuits for Quantum Information Processing on a Chip (20 Qingyuan Zhao, MIT, Superconducting nanowire single photon detectors (20 Margherita Mazzera, ICFO, ES - Integrated quantum memories (20 Kartik Srinivasan, NIST, Chip-scale frequency conversion interfaces for quantum emitters (20 Abijith Kowligy, Northwestern U, Quantum frequency conversion in nonlinear microcavities (20

4:00pm 4:30 pm 4:30pm 6:50pm - Continuation Viewpoint: Eli Yablonovitch, UC Berkeley, Control of light emission (40 Félix Bussières, U Geneve, CH - Long-distance quantum communication with solid-state devices (20 Steven Rolston, U Maryland, Trapping atoms near nanofibers and waveguides (20 Francesco S. Cataliotti, U Firenze, Atom-chip for quantum information and simulation (20 Jungsang Kim, Duke University, Ion trap quantum computers (20 Zhiliang Yuan Cambridge UK - Toshiba QKD system (20 7:30 pm Workshop dinner-buffet, Caffè Pedrocchi Tuesday Oct. 13, 2015 University of Padua Department of Information Engineering Aula Magna 8:30am-10:50am Focus on Imaging, Light Emission and Detection Viewpoint: Steve Beaumont, Glasgow U., Quantum Imaging (40 T.C1 Fedor Jelezko, Ulm U, Quantum enhanced sensing and imaging using diamond color centers (20 Roberto Osellame, Polytechnic Milan, Photonic circuits for quantum computing (20 A. Wallraff, ETH Zurich, Digital simulations of spin models with circuit QED (20 T.C2 Alan Migdall, NIST, Number resolved detectors (20 T.C6 Ania Bleszynski-Jayich, UC Santa Barbara, Nitrogen vacancy centers in diamonds (20 10:50am-11_10am 11:10am -13:10am 5 talks on technologies Viewpoint: Marko Loncar, Harvard U, Diamonds: Quantum Engineers Best Friend (40 T.C7 Edo Waks, U Maryland, Spin-photon interactions on a semiconductor chip for quantum photonics (20 T.C8 Maiken Mikkelsen, Duke U, Ultrafast single photon emission from quantum dots coupled to plasmonic nanocavities (20 T. C9 Peter Lodahl, U Copenhagen, Photonic quantum-information processing with quantum dots (20 T.C10 Pablo A. Postigo, Instituto de Microelectrónica de Madrid, ES - Playing with single photons on the micron scale using photonic crystals and quantum dots (20 Dr. Tommaso Lunghi, U Nice, F - Hybrid integrated photonics platform for the generation of tunable heralded two-photon states (20 12:30 1:30 pm

Lunch Break Discussion sessions Point of view of Scientific Topics Including: Quantum Computation, Communication, Metrology, Sensing and Imaging on a Chip Objectives : gather the actual topics promising and worthy for funding that shall be included in the 10 years roadmap on the Quantum Information of a Chip PRODUCE e-written SYNTHESIS to be included in the final document 1:30 3:30 pm Computation on a Chip - Moderator: Sciarrino Partecipants 3:30pm - 4:00pm All 4:00pm - 6:00 pm Participants Communication and QKD on a Chip - Moderator: Diamanti Aula Magna Loncar Bartley Badolato Bajoni Sciarrino Yuan Diamanti Bussières Srinivasan Yablonovich Bleszynski-Jayich Englund Waks Kumar Quantum Metrology and Sensing on a Chip - Moderator: Migdall Room 201 Migdall Beaumont Sergienko Osellame Postigo Calonico Rolston Kowligy Lunghi Cataliotti Wallraff Kim Davis Zhao

Wednesday Oct. 14, 2015 University of Padua Department of Information Engineering Aula Magna Discussion sessions Point of view of Technologies and Applications Including: generation and detection of single photons, integration technologies, error correction, Secure Communications, Computation and Imaging on a Chip 8:30 10:30 am Generation and detection of single photons - Moderator: Bajoni Felìx Bussières: The Nanoscale Quantum Optics EU COST Action Participants 10:30pm - 11:00pm All 11:00am - 1:00 pm Participants Integration technologies, Nonlinear effects - Moderator:?? Aula Magna Loncar Tim Bartley Badolato Bajoni Sciarrino Yuan Diamanti Bussières Srinivasan Yablonovich Bleszynski-Jayich Englund Waks Kumar Applications Avenues, Imaging - Moderator: Calonico Room 201 Migdall Beaumont Sergienko Osellame Postigo Calonico Rolston Kowligy Lunghi Cataliotti Wallraff Kim Davis Zhao 1:00 2:00 pm Lunch Break 2:00 3:30 pm Joint session Report by the Discussion Tables Moderators 3:30-4:00 pm 4:00 5:30 pm Joint session Roadmapping of Quantum Information on a Chip

Tommaso Calarco, U Ulm, D - in telecon from Brussels, On the way ahead on Quantum Information in Europe Conclusions End of the workshop

Participants List EU Participants 1. Ian Walmsley, U Oxford, - Overview of Research on Quantum Information in the UK 2. Steve Beaumont, U Glasgow, - Overview of Research in Quantum Imaging in the UK 3. Tim Bartley, U Padeborn, D 4. Zhiliang Yuan - Toshiba QKD system 5. Fabio Sciarrino, U Sapienza, Rome I - Quantum Information with integrated photonics 6. Tommaso Lunghi, U Nice, F - Hybrid integrated photonics platform for the generation of tunable heralded two-photon states 7. Davide Calonico, INRIM - I, Quantum Metrology and Sensing 8. Francesco S. Cataliotti, LENS, Florence, I - Quantum Simulation and Control with Degenerate Atoms 9. Eleni Diamanti, ParisTech, F - Continuous-variable quantum cryptography on silicon 10. Roberto Osellame, INO-CNR Milan, I - Femtosecond laser direct writing of photonic circuits: a new way to integrated quantum devices 11. Peter Lodahl, U Copenhagen, DK - Photonic quantum-information processing with quantum dots 12. Pablo A. Postigo, IMM Madrid, ES, Playing with single photons on the micron scale using photonic crystals and quantum dots 13. Daniele Bajoni, U Pavia, I - Generation of entangled photons in silicon chips 14. Félix Bussières, U Geneve, CH - Long-distance quantum communication with solid-state devices 15. Andreas Wallraff ETH, CH Photons, Qubits and Computers - A Quantum Mechanics Lab on a Chip 16. Margherita Mazzera, ICFO, ES US participants 1. Marko Loncar, Harvard U, Quantum Photonic Networks in Diamond. 2. Antonio Badolato, U of Rochester, On-chip non-classical light sources. 3. Kartik Srinivasan, NIST Gaithersburg, Chip-Scale Frequency Conversion Interfaces for Quantum Emitters. 4. Alan Migdall, NIST Gaithersburg, Number Resolved Detectors. 5. Dirk Englund, MIT, Quantum Information Processing Using Active Silicon Photonics Integrated Circuits. 6. Jungsang Kim, Duke University, Ion trap Quantum Computers. 7. Steven Rolston, U of Maryland, Trapping Atoms near Nanofibers and Waveguides, 8. Paul S. Davids, Sandia Lab, Sandia s quantum chip-scale program. 9. Eli Yablonovitch, UC Berkeley, Control of light emission. 10. Alexander Sergienko, Boston U, Second Order Nonlinear Processes and Linear Optics Circuits for Quantum Information Processing on a Chip. 11. Abijith Kowligy, Northwestern U, Quantum Frequency Conversion in Nonlinear Microcavities. 12. Ania Bleszynski-Jayich, UC Santa Barbara, Nitrogen Vacancy Centers in Diamonds. 13. Maiken Mikkelsen, Duke University, Control of Spin for light-matter interactions in nanoscale photonic structures. 14. Qingyuan Zhao, MIT, Superconducting nanowire single photon detectors

15. Edo Waks, U of Maryland, Spin-photon interactions on a semiconductor chip for quantum photonics 16. Prem Kumar, DARPA, observer

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