Obiettivo
This project seeks to establish a radically new technology platform for experiments in macroscopic quantum physics and for
quantum enabled sensing. We exploit magnetic coupling between superconducting quantum circuits and superconducting
mechanical resonators – both levitated and suspended – to enter a hitherto inaccessible parameter regime of both
unprecedented force sensitivity and full quantum control of massive, macroscopic objects. Our approach combines, in a new
way, techniques from different research areas (magnetic levitation, superconducting circuits, atom-chip technology, cavity
optomechanics and quantum optics) and is set up as a joint collaborative effort between expert European teams from
academia and industry. Our technology will enable quantum experiments of otherwise unachievable coherence times and
masses, which has immediate implications for testing fundamental physical questions, for performing hybrid quantum
information processing and, on the applied side, for ultrasensitive force sensing applications.
Campo scientifico
- scienze naturaliscienze fisicheotticaoptomeccanica in cavità
- scienze naturaliscienze fisichefisica quantisticaottica quantistica
- scienze naturalimatematicamatematica purageometria
- scienze naturaliscienze fisicheelettromagnetismo ed elettronicasuperconduttività
- scienze naturaliscienze fisichefisica teoreticafisica delle particellefotoni
Programma(i)
Invito a presentare proposte
Vedi altri progetti per questo bandoBando secondario
H2020-FETOPEN-1-2016-2017
Meccanismo di finanziamento
RIA - Research and Innovation action
Coordinatore
1010 Wien
Austria
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Partecipanti (3)
1010 Wien
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08193 Cerdanyola Del Valles
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80539 Munchen
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