COSIT
COSIT | |
Titre : | Compact High Brilliance Single Frequency Terahertz Source |
Budget : | 1 279 k€ |
Subventions : | FP7-ICT (966 k€) |
Sous-programme : | ICT-2011.9.2 |
Type de contrat : | Collaborative project (generic) |
Début : | 1er janvier 2012 |
Fin : | 31 décembre 2013 |
COSIT est l'acronyme du projet européen Compact High Brilliance Single Frequency Terahertz Source, qui a pour référence sur le service CORDIS 284792[1].
Note : Les objectifs suivants sont repris de la fiche du projet sur Cordis
- Objective
We propose an integrated high power single frequency terahertz source. This source will include a double wavelength solid-state infrared laser developed specifically for this application with two different intra-cavity laser materials that will emit at close but distinct infrared wavelengths.
The combination of the two emitted wavelengths in organic materials OH1 (2-(3-(4-hydroxystyryl)-5,5-dimethylcyclohex-2-enylidene)malononitrile) and DSTMS (4-N,N-dimethylamino-4-N-methyl-stilbazolium 2,4,6-trimethylbenzenesulfonate) will produce high power monochromatic THz radiation at a frequency determined by the difference of the infrared wavelengths. We propose the realization of two different terahertz sources one operating at 4.27 THz, the other one at 9.31 THz. For these two THz sources we will develop two different double-frequency lasers TWIN-1 and TWIN-2. The first one will be based on Nd:YAG and Nd:YLF as laser hosts, with emission wavelengths at 1.33 µm and 1.31 µm. TWIN-2 uses Nd:YAG and Yb:YAG as laser hosts, with emission wavelengths at 1.03 µm and 1.06 µm. Both TWIN-1 and TWIN-2 will operate within a common and compact laser cavity.
The high THz power which can be generated in a compact device is due to the very high nonlinear optical susceptibility, the low THz absorption and the relatively high optical damage threshold and phase matchability of the OH1 and DSTMS crystals. A fully integrated, compact, all solid state system operating at room temperature will result from this research. This high power single terahertz frequency source will be used to investigate non-destructively high molecular weight polyethylene materials for biomedical applications.Les partenaires du projet
Coordinateur du projet
- Rainbow photonics AG - Zurich (A pour pays coordinateur de projet européen::Suisse)
Partenaires
- Université Paul Verlaine - Metz - Metz (Lorraine, France) - Contact : Jean-Paul Salvestrini
- Institut Jožef Stefan - Ljubljana (Slovénie)
- Centre de recherche scientifique et d'enseignement supérieur d'Ensenada, Baja California - Ensenada (Mexique)
Financement
- Coût total du projet : 1 279 982 €
- Subvention de la Commission européenne (programme FP7-ICT) : 966 868 €
Dates importantes
- Date de début : 1er janvier 2012
- Date de fin : 31 décembre 2013
Voir aussi
Liens externes
- Le site officiel de Rainbow photonics AG
Notes
- ↑ La fiche du projet sur CORDIS