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QAP SP5 Theory Serge Massar

QAP SP5 Theory Serge Massar. Publications for Year 1 115+ submitted/published (more than half of QAP output) 11+ in PRL FOCS STOCS 1 Review in Progress in Optics 1 Vulgarisation in La Recherche Meetings Poincaré Semester (Paris) QIP Conference (Paris) QAP&RESQ meeting (Paris)

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QAP SP5 Theory Serge Massar

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  1. QAP SP5 TheorySerge Massar • Publications for Year 1 • 115+ submitted/published • (more than half of QAP output) • 11+ in PRL FOCS STOCS • 1 Review in Progress in Optics • 1 Vulgarisation in La Recherche • Meetings • Poincaré Semester (Paris) • QIP Conference (Paris) • QAP&RESQ meeting (Paris) • Quantum Process Estimation Workshop (Budmerice)

  2. QAP SP5 TheorySerge Massar • Meetings • Poincaré Semester (Paris) • QIP Conference (Paris) • QAP&RESQ meeting (Paris) • Quantum Process Estimation Workshop (Budmerice) • Proposals for next year ?

  3. WP5.1 Algorithms and Complexity • new version of the adversary method for quantum lower bounds, use it to prove new quantum direct-product theorems and time-space tradeoffs.(Ambainis, Spalek, de Wolf) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  4. WP5.1 Algorithms and Complexity • new version of the adversary method for quantum lower bounds, use it to prove new quantum direct-product theorems and time-space tradeoffs.(Ambainis, Spalek, de Wolf) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  5. WP5.2 Algorithmic Methods • Better understanding of the ability of quantum circuits to withstand noise (Buhrman, Cleve, Laurent, Linden,Schrijver, Unger) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  6. WP5.2 Algorithmic Methods • Better understanding of the ability of quantum circuits to withstand noise (Buhrman, Cleve, Laurent, Linden,Schrijver, Unger) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  7. WP5.3 Protocols for Quantum Commerce • Ensemble of work on Quantum Key Distribution (QKD) schemes whose security is ensured by causality, hence independent of the devices • Y1: M & D √ • Y2: New M & D √

  8. WP5.3 Protocols for Quantum Commerce • Ensemble of work on Quantum Key Distribution (QKD) schemes whose security is ensured by causality, hence independent of the devices • Y1: M & D √ • Y2: New M & D √

  9. WP5.4 Toolbox for quantum multi-user protocols • basic building blocks of information theory (negative, prior, partial, and co-mutual information)(M. Horodecki, J. Oppenheim, A. Winter) • The first study (already almost complete) of quantum communication in networks(D. Leung, J. Oppenheim, A. Winter) • An ensemble of works on classical simulation of quantum devices

  10. Y1: Milestones & Deliverables NO • D.5.4.1 partially achieved • M5.4.1 partially achieved • M5.4.2: Mistery Milestone • Find optimal ways of processing establishedquantum correlations using statistical technique • Y2: New Milestones & Deliverables OK

  11. Y1: Milestones & Deliverables NO • D.5.4.1 partially achieved • M5.4.1 partially achieved • M5.4.2: Mistery Milestone • Find optimal ways of processing establishedquantum correlations using statistical technique • Y2: New Milestones & Deliverables OK

  12. WP5.5 Architectures • Towards assessing the ultimate limits of linear optics quantum computing(K. Kieling, D. Gross, J. Eisert) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  13. WP5.5 Architectures • Towards assessing the ultimate limits of linear optics quantum computing(K. Kieling, D. Gross, J. Eisert) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  14. WP5.6 Testing Quantum Systems • Optimal method for estimating an unknown density matrix using separable measurements(E. Bagan, M. A. Ballester, R. D. Gill, R. Munoz-Tapia, O. Romero-Isart) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  15. WP5.6 Testing Quantum Systems • Optimal method for estimating an unknown density matrix using separable measurements(E. Bagan, M. A. Ballester, R. D. Gill, R. Munoz-Tapia, O. Romero-Isart) • Y1: Milestones & Deliverables √ • Y2: New Milestones & Deliverables √

  16. Thanks to Oded Regev, Toni Acin, Konrad Banaszek, Mario Ziman

  17. Thanks to Oded Regev, Toni Acin, Konrad Banaszek, Mario Zimanand

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