Description du projet
Caractérisation immédiate et en temps réel d’impulsions laser ultracourtes en une seule étape
Les scientifiques ont souvent recours au moyennage d’échantillons pour obtenir une représentation plus précise de phénomènes donnés. Cette technique est également souvent utilisée pour la caractérisation d’impulsions ultracourtes de lasers avancés. Comme les impulsions sont de plus en plus courtes et que les applications exigent de plus en plus une caractérisation très précise des propriétés de chaque impulsion pour contrôler ou interpréter les phénomènes d’intérêt, les techniques de caractérisation en une seule étape sont très demandées. Elles peuvent mesurer le profil temporel d’impulsions laser individuelles sans artefacts, ce qui permet d’établir un lien direct avec les résultats des expériences. Le projet SISHOT, financé par l’UE, fera progresser la maturité technologique de ses deux méthodologies avancées de caractérisation des impulsions laser ultracourtes basées sur la technique du balayage de dispersion, couvrant des applications scientifiques, médicales et industrielles.
Objectif
Ultrashort laser pulses are prominent enabling tools in countless advanced applications, ranging from fundamental research to medical and industrial use. However, straightforward characterization of ultrashort laser pulses remains a nontrivial task. The proposed project (acronym: SISHOT) focuses on the development of advanced ultrashort laser pulse characterization based on the dispersion scan (d-scan) technique. We propose two d-scan implementations, named s-shot and d-shot, capable of characterizing ultrashort laser pulses in single-shot operation.
Single-shot characterization techniques are particularly appealing because they can measure the temporal profile of individual laser pulses without artefacts, often originating from averaging. The proposed techniques can directly link the measured pulse parameters to the outcome of experiments for every laser shot as well as give immediate, real-time feedback to the adjustment and optimisation of any ultrashort pulse laser. In comparison to the competitors, our instruments are easier to use and the measurements are more intuitive to interpret.
Within the project, the s-shot will be lifted from TRL4 to TRL7 and the d-shot from TRL7 to TRL9. We have identified the most important markets for ultrashort pulse characterisation. The s-shot will address the important scientific market at the laser wavelength of 800 nm and the d-shot will focus at the wavelength of 1030 nm, which is more relevant to medical and industrial applications.
The project builds on the outcome of the previously funded ERC POC project, SISCAN. It is headed by Cord L. Arnold, assoc. prof. at Lund University in Sweden, and Rosa Romero, CEO of the deep-tech company, Sphere Ultrafast Photonics, located in Porto, Portugal. All team members have been working with the d-scan technology for many years in different collaborations, including two common ERC POC projects. Many of them are co-founders of Sphere and co-inventors of the patents the project builds on.
Champ scientifique
Programme(s)
- HORIZON.3.1 - The European Innovation Council (EIC) Main Programme
Régime de financement
HORIZON-AG - HORIZON Action Grant Budget-BasedCoordinateur
22100 Lund
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