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000856375 005__ 20230210112538.0
000856375 0247_ $$2CORDIS$$aG:(EU-Grant)820394$$d820394
000856375 0247_ $$2CORDIS$$aG:(EU-Call)H2020-FETFLAG-2018-03$$dH2020-FETFLAG-2018-03
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000856375 035__ $$aG:(EU-Grant)820394
000856375 150__ $$aAdvancing Science and TEchnology thRough dIamond Quantum Sensing$$y2018-10-01 - 2022-03-31
000856375 371__ $$aJohannes Gutenberg University of Mainz$$bJohannes Gutenberg University of Mainz$$dGermany$$ehttp://www.uni-mainz.de/eng/$$vCORDIS
000856375 371__ $$aUniversity of Basel$$bUniversity of Basel$$dSwitzerland$$ehttps://www.unibas.ch/de$$vCORDIS
000856375 371__ $$aSwiss Federal Institute of Technology in Zurich$$bSwiss Federal Institute of Technology in Zurich$$dSwitzerland$$ehttps://www.ethz.ch/en.html$$vCORDIS
000856375 371__ $$aFRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.$$bFraunhofer$$dGermany$$ehttp://www.fraunhofer.de$$vCORDIS
000856375 371__ $$aWIGNER FIZIKAI KUTATOKOZPONT$$bWigner RCP$$dHungary$$ehttp://wigner.mta.hu$$vCORDIS
000856375 371__ $$aINTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM$$bIMEC$$dBelgium$$ehttp://www.imec.be$$vCORDIS
000856375 371__ $$aTechnical University Munich$$bTUM$$dGermany$$ehttp://www.tum.de/en/homepage/$$vCORDIS
000856375 371__ $$aTTI-TECHNOLOGIE-TRANSFER-INITIATIVEGMBH AN DER UNIVERSITAT STUTTGART$$bTTI$$dGermany$$ehttp://www.tti-stuttgart.de$$vCORDIS
000856375 371__ $$aNVISION IMAGING TECHNOLOGIES GMBH$$bHerr$$dGermany$$ehttp://NVision-Imaging.com$$vCORDIS
000856375 371__ $$aAttocube Systems (Germany)$$bAttocube Systems (Germany)$$dGermany$$vCORDIS
000856375 371__ $$aARTTIC$$bARTTIC$$dFrance$$ehttp://www.arttic.fr$$vCORDIS
000856375 371__ $$aUniversity of Ulm$$bUniversity of Ulm$$dGermany$$ehttps://www.uni-ulm.de/en/homepage.html$$vCORDIS
000856375 371__ $$aForschungszentrum Jülich$$bForschungszentrum Jülich$$dGermany$$ehttps://www.ptj.de/$$vCORDIS
000856375 371__ $$aHebrew University of Jerusalem$$bHUJI$$dIsrael$$ehttp://new.huji.ac.il/en$$vCORDIS
000856375 371__ $$aLeipzig University$$bLeipzig University$$dGermany$$ehttps://www.uni-leipzig.de/en/$$vCORDIS
000856375 371__ $$aUniversity of Stuttgart$$bUniversity of Stuttgart$$dGermany$$ehttp://www.uni-stuttgart.de/home/index.en.html$$vCORDIS
000856375 371__ $$aÉcole Normale Supérieure$$bENS$$dFrance$$ehttp://www.ens.fr/?lang=en$$vCORDIS
000856375 371__ $$aCNRS - Institut des Sciences Biologiques$$bINSB$$dFrance$$ehttp://www.cnrs.fr/insb/$$vCORDIS
000856375 371__ $$aTHALES SA$$bTHALES$$dFrance$$ehttp://www.thalesgroup.com$$vCORDIS
000856375 371__ $$aSaarland University$$bSaarland University$$dGermany$$ehttp://www.uni-saarland.de/en/home.html$$vCORDIS
000856375 371__ $$aELEMENT SIX (UK) LIMITED$$bElement Six (UK) Limited$$dUnited Kingdom$$ehttp://www.e6.com$$vCORDIS
000856375 371__ $$aState Research Institute Centre for Innovative Medicine$$bIMC$$dLithuania$$ehttp://www.imcentras.lt/en/$$vCORDIS
000856375 371__ $$aRobert Bosch Stiftung - Dr. Margarete Fischer-Bosch-Institute of Clinical Pharmacology$$bIKP$$dGermany$$ehttp://ikp-stuttgart.de/content/language1/html/index.asp$$vCORDIS
000856375 372__ $$aH2020-FETFLAG-2018-03$$s2018-10-01$$t2022-03-31
000856375 450__ $$aASTERIQS$$wd$$y2018-10-01 - 2022-03-31
000856375 5101_ $$0I:(DE-588b)5098525-5$$2CORDIS$$aEuropean Union
000856375 680__ $$aASTERIQS will exploit quantum sensing based on the NV centre in ultrapure diamond to bring solutions to societal and economical needs for which no solution exists yet. Its objectives are to develop: 1) Advanced applications based on magnetic field measurement: fully integrated scanning diamond magnetometer instrument for nanometer scale measurements, high dynamics range  magnetic field sensor to control advanced batteries used in electrical car industry, lab-on-Chip Nuclear Magnetic Resonance (NMR) detector for early diagnosis of disease, magnetic field imaging camera for biology or robotics, instantaneous spectrum analyser for wireless communications management; 2) New sensing applications to sense temperature within a cell, to monitor new states of matter under high pressure, to sense electric field with ultimate sensitivity; 3) New measurement tools to elucidate the chemical structure of single molecules by NMR for pharmaceutical industry or the structure of spintronics devices at the nanoscale for new generation spin-based electronic devices.
ASTERIQS will develop enabling tools to achieve these goals: highest grade diamond material with ultralow impurity level, advanced protocols to overcome residual noise in sensing schemes, optimized engineering for miniaturized and efficient devices.
ASTERIQS will disseminate its results towards academia and industry and educate next generation physicists and engineers. It will contribute to the strategic objectives of the Quantum Flagship to expand European leadership in quantum technologies, deliver scientific breakthroughs, make available European technological platforms and develop synergetic collaborations with them, and finally kick-start a competitive European quantum industry.
The ASTERIQS consortium federates world leading European academic and industrial partners to bring quantum sensing from the laboratory to applications for the benefit of European citizens.
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