Descrizione del progetto
Una sinergia di elettroni e fotoni amplia le possibilità della microscopia elettronica
I microscopi elettronici utilizzano un fascio di elettroni, anziché di fotoni, sfruttando le loro lunghezze d’onda molto corte per risolvere caratteristiche che sono oltre un milione di volte più piccole di quelle possibili con i microscopi ottici a super-risoluzione. Tali microscopi ci hanno offerto l’opportunità senza precedenti di osservare i materiali e i loro comportamenti, cogliendo i cambiamenti dinamici grazie a una risoluzione spaziale e temporale estremamente elevata. Il progetto EBEAM, finanziato dall’UE, è determinato a superare in modo significativo le capacità attuali sfruttando le interazioni uniche tra elettroni liberi e campi di luce ottica, il che innalzerà i limiti di risoluzione e aprirà aree di studio che non erano accessibili con la tecnologia attuale.
Obiettivo
Electron microscopy (EM) is a key technology to reveal the atomic structure and chemical composition of materials with (sub-)Ångström resolution. It is an essential technique to enable the breakthroughs that are needed to solve societal challenges in renewable energy technology, life sciences, and communication and quantum technology. To realize these breakthroughs, we require EM technology with ultrafast time scale, ultrahigh energy resolution, covering low-energy spectral ranges and several other capabilities, all of which are beyond the present state of the art. The EBEAM project brings together a proven consortium of EM experts that will integrate their complementary EM science and technology into completely new EM measurement modalities, exploiting the unique interactions between free electrons and optical light fields, and thereby combining ultrahigh spectral and temporal control with sub-Ångström spatial resolution. The project’s ambition is to demonstrate <20 fs time resolution and <1 meV energy resolution, and to open up the 4-400 neV (1-100 MHz) energy range, all inaccessible in EM so far. Using new correlation and coincidence modalities that have never been used in EM before, we will unveil new methods to probe selection rules, low-energy band structures, trace elements, and more. We will demonstrate the broad applicability of the new EBEAM techniques by carrying out selected research projects that target key questions in energy conversion materials, opto-electronic materials and quantum technology. The consortium is composed of 8 EM groups in basic research and industry that represent a unique combination of EM instruments, knowledge and ideas that are well positioned to target the ambitious goals of the EBEAM project. It includes the world-leader in EM manufacturing and a successful SME. Together, the consortium will bring the EBEAM technology to a broad user community where it is expected to have strong scientific and economic impact.
Campo scientifico
- natural sciencesphysical scienceselectromagnetism and electronicsoptoelectronics
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- natural sciencesphysical sciencesopticsmicroscopyelectron microscopy
- engineering and technologyenvironmental engineeringenergy and fuelsenergy conversion
Parole chiave
Programma(i)
Invito a presentare proposte
Vedi altri progetti per questo bandoBando secondario
H2020-FETPROACT-2020-2
Meccanismo di finanziamento
RIA - Research and Innovation actionCoordinatore
3526 KV Utrecht
Paesi Bassi