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000870855 005__ 20230207130545.0
000870855 0247_ $$2CORDIS$$aG:(EU-Grant)817482$$d817482
000870855 0247_ $$2CORDIS$$aG:(EU-Call)H2020-FETFLAG-2018-03$$dH2020-FETFLAG-2018-03
000870855 0247_ $$2originalID$$acorda__h2020::817482
000870855 035__ $$aG:(EU-Grant)817482
000870855 150__ $$aProgrammable Atomic Large-Scale Quantum Simulation$$y2018-10-01 - 2022-03-31
000870855 371__ $$aUniversity of Padua$$bUNIPD$$dItaly$$ehttp://www.unipd.it/en/home-page$$vCORDIS
000870855 371__ $$aAustrian Academy of Sciences$$bOAW$$dAustria$$ehttp://www.oeaw.ac.at/en/austrian-academy-of-sciences/$$vCORDIS
000870855 371__ $$aHeidelberg University$$bHeidelberg University$$dGermany$$ehttp://www.uni-heidelberg.de/index_e.html$$vCORDIS
000870855 371__ $$aForschungszentrum Jülich$$bForschungszentrum Jülich$$dGermany$$ehttps://www.ptj.de/$$vCORDIS
000870855 371__ $$aFreie Universität Berlin$$bFU$$dGermany$$ehttp://www.fu-berlin.de/en/$$vCORDIS
000870855 371__ $$aMuquans (France)$$bMuquans (France)$$dFrance$$ehttps://www.muquans.com$$vCORDIS
000870855 371__ $$aCNRS - Institut des Sciences Biologiques$$bINSB$$dFrance$$ehttp://www.cnrs.fr/insb/$$vCORDIS
000870855 371__ $$aUniversity of Strathclyde$$bUniversity of Strathclyde$$dUnited Kingdom$$ehttp://www.strath.ac.uk/$$vCORDIS
000870855 371__ $$aAZUR LIGHT SYSTEMS$$bAzur Light Systems$$dFrance$$ehttp://www.azurlight-systems.com$$vCORDIS
000870855 371__ $$aMY CRYO FIRM$$bMYCRYO$$dFrance$$ehttp://www.mycryofirm.com$$vCORDIS
000870855 371__ $$aTOPTICA Photonics AG$$bTOPTICA$$dGermany$$ehttp://www.toptica.com$$vCORDIS
000870855 371__ $$aMax Planck Society$$bMPG$$dGermany$$ehttp://www.mpg.de/en$$vCORDIS
000870855 371__ $$aSwiss Federal Institute of Technology in Zurich$$bSwiss Federal Institute of Technology in Zurich$$dSwitzerland$$ehttps://www.ethz.ch/en.html$$vCORDIS
000870855 371__ $$aINSTITUT D'OPTIQUE THEORIQUE ET APPLIQUEE IOTA - SUPOPTIQUE$$bIOTA$$dFrance$$vCORDIS
000870855 371__ $$aBULL SAS$$bBULL$$dFrance$$ehttp://www.bull.com$$vCORDIS
000870855 372__ $$aH2020-FETFLAG-2018-03$$s2018-10-01$$t2022-03-31
000870855 450__ $$aPASQuanS$$wd$$y2018-10-01 - 2022-03-31
000870855 5101_ $$0I:(DE-588b)5098525-5$$2CORDIS$$aEuropean Union
000870855 680__ $$aPASQuanS will perform a decisive transformative step for quantum simulation towards programmable analogue simulators addressing questions in fundamental science, materials development, quantum chemistry and real-world problems of high importance in industry. PASQuanS builds on the impressive achievements of the most advanced quantum simulation platforms, based on atoms and ions. The neutral-atom simulators handle more than 50 cold atoms in optical lattices or arrays of optical tweezers, interacting via either collisional or Rydberg-state-mediated interactions. The ion-trap platform reaches unsurpassed control with up to 20 ions. By scaling up these platforms towards >1000 atoms/ions, by improving control methods and making these simulators fully programmable, PASQuanS will push these already well-advanced platforms far beyond both the state-of-the-art and the reach of classical computation. Full programmability will make it possible to address quantum annealing or optimization problems much sooner than digital quantum computation. PASQuanS will demonstrate a quantum advantage for non-trivial problems, paving the way towards practical and industrial applications. PASQuanS tightly unites five experimental groups with complementary methods to achieve the technological goals, connected with six theoretical teams focusing on certification, control techniques and applications of the programmable platforms, and five industrial partners in charge of the key developments of enabling technologies and possible commercial spin-offs of the project. PASQuanS will result in modular building blocks for a future generation of quantum simulators. Possible end-users of these simulators, major industrial actors, are tightly associated with the consortium. In a cross-fertilization process, they will be engaged in a dialogue on quantum simulation, and help to identify and implement key applications where quantum simulation provides a competitive advantage.
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