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Dynamic Spatio-Temporal Modulation of Light by Phononic Architecturesbroad

Dynamo · Horizon Europe grant · 2022-03-01–2026-08-31

EC contribution

€2,552,278

Total cost

€2,552,278

Beneficiaries

14
About the data

Source: CORDIS (official EU open data), Horizon Europe. Framework HORIZON · call HORIZON-EIC-2021-PATHFINDEROPEN-01 · scheme HORIZON-EIC · topic HORIZON-EIC-2021-PATHFINDEROPEN-01-01. CORDIS record →

Objective

Imaging technologies form the basis of a vast range of products and devices and improvements would have a huge impact both scientifically and commercially. We have identified a key bottleneck, how light is modulated in the imaging system, that we can unlock to achieve a new paradigm in imaging technologies. Spatial light modulators, and similar components, operate sequentially: the light beam is shaped in different patterns but the time interval between patterns is limited by the refresh rate of the device. We will remove this limitation, thereby creating a technological breakthrough; our advance will be to send all possible patterns of the device simultaneously, and encoded in a short nanosecond pulse, creating the concept of parallel beam shaping or dynamic spatio-temporal light modulation device. In Dynamo, we will shape optical beams in two spatial dimensions plus the temporal one. The equivalent refresh rate of the dynamic pixel will start at GHz, although we are confident it will become much higher by the end of the project. To give an idea of our ambition, we compare this improvement in the time to process images with the improvement in the clock frequency of computers: the first general-purpose electronic computer, the ENIAC, had a clock frequency of 100kHz in 1945. It was not until 2000 where AMD reached 1 GHz in their computers. Processing images is broadly similar to processing data so this is indicative of the fifty-year acceleration in the realm of imaging that we will achieve. Dynamo is an ambitious and integrated project that begins by studying the fundamentals of acoustic wave scattering and ends by developing ultra-fast imaging applications in optics. The success of this pathway requires the synergy of the disciplines of physical acoustics, photonics and imaging. The outcomes from this project offer to accelerate imaging technologies and place European science and industry at the forefront of the inventions and advances that will follow.

Beneficiaries (14)

OrganisationCountryRoleEC contributionSME
UNIVERSITAT JAUME I DE CASTELLON ES coordinator €958,415
AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS ES participant €696,980
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS FR participant €604,632
AKADEMIA GORNICZO-HUTNICZA IM. STANISLAWA STASZICA W KRAKOWIE PL participant €292,250
FUNDACION UNIVERSITAT JAUME I-EMPRESA ES thirdParty €0
SORBONNE UNIVERSITE FR thirdParty €0
FUNDACION PARA EL FOMENTO DE LA INVESTIGACION SANITARIA Y BIOMEDICA DE LA COMUNITAT VALENCIANA ES associatedPartner
UNIVERSITE PIERRE ET MARIE CURIE FR associatedPartner
INSTITUTO VALENCIANO DE LA COMPETITIVIDAD EMPRESARIAL ES associatedPartner
ASSOCIATION EUROPEENNE DES AGENCESDE DEVELOPPEMENT BE associatedPartner
IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE UK associatedPartner
FINNOVAREGIO BE associatedPartner
HOLOEYE PHOTONICS AG DE associatedPartner Yes
Institut d'électronique de microélectronique et de nanotechnologie FR associatedPartner

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