Cel
The hybrid optomechanical technologies (HOT) consortium will lay the foundation for a new generation of devices, which connect, or indeed contain, several platforms at the nanoscale in a single “hybrid” system. As hybrid interfaces they will allow to harness the unique advantages of each subsystem within a nano-scale footprint, while as integrated hybrid devices they will enable entirely novel functionalities. A particular focus will be on nano-optomechanical devices that comprise electrical, microwave or optical systems with micro- and nano-mechanical systems. Research in the past decade, in particular by European groups, has shown the significant technological potential that such nano-optomechanical systems can offer, in particular by establishing a new way in which optical, radio-frequency and microwave signals can be interfaced. The present consortium includes leading academic groups and industrial partners to explore the potential of these hybrid-nano-optomechanical systems. It will explore hybrid opto- and electro-mechanical devices operating at the physical limit for conversion, synthesis, processing, sensing and measurement of EM fields, comprising radio, microwave frequencies to the terahertz domain. These spectral domains open realistic applications in the existing application domains of medical (e.g. MRI imaging), security (e.g. Radar and THz monitoring), positioning, timing and navigations (Oscillators) and for future quantum technology. The research aims at specific technological application, with realistic operating conditions and seeks to develop actual system demonstrators. In addition, it will explore how these hybrid transducers can be fabricated within standard CMOS processing, and thereby be made compatible with current manufacturing methods. The HOT devices will thereby impact today’s technology and likewise address potential future need for the manipulation of quantum signals.
Dziedzina nauki
Not validated
Not validated
- natural sciencesphysical scienceselectromagnetism and electronicselectromagnetism
- natural sciencesphysical sciencesopticscavity optomechanics
- natural sciencesphysical sciencesquantum physics
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringcomputer hardwarequantum computers
- natural scienceschemical sciencesinorganic chemistrymetalloids
Program(-y)
Zaproszenie do składania wniosków
Zobacz inne projekty w ramach tego zaproszeniaSzczegółowe działanie
FETPROACT-2016
System finansowania
RIA - Research and Innovation actionKoordynator
1015 Lausanne
Szwajcaria
Zobacz na mapie
Uczestnicy (17)
1165 Kobenhavn
Zobacz na mapie
62032 Camerino
Zobacz na mapie
CB2 1TN Cambridge
Zobacz na mapie
8803 Rueschlikon
Zobacz na mapie
3526 KV Utrecht
Zobacz na mapie
2080 L-Imsida
Zobacz na mapie
02150 Espoo
Zobacz na mapie
78464 Konstanz
Zobacz na mapie
9000 Gent
Zobacz na mapie
75794 Paris
Zobacz na mapie
Podmiot prawny inny niż podwykonawca, stowarzyszony lub mający inne powiązania prawne z uczestnikiem. Podmiot realizuje prace na podstawie warunków umowy o grant, dostarcza towary lub świadczy usługi związane z działaniem, jednak nie podpisuje umowy o grant. Podmiot zewnętrzny przestrzega zasad i wymogów dotyczących danego uczestnika wynikających z umowy o grant, dotyczących kwalifikowalności kosztów oraz kontroli wydatków.
75006 Paris
Zobacz na mapie
92190 MEUDON
Zobacz na mapie
2628 CN Delft
Zobacz na mapie
3400 Klosterneuburg
Zobacz na mapie
SL2 4HD Stoke Poges
Zobacz na mapie
20864 Agrate Brianza
Zobacz na mapie
80539 Munchen
Zobacz na mapie