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3D printed micro- and nano-optics for future integrated vision and endoscopy systems

Description du projet

L’impression 3D gagne du terrain en micro-optique

L’impression 3D a révolutionné de nombreux secteurs industriels en réduisant les coûts et le temps nécessaires au lancement de nouveaux produits, en accélérant la production et en optimisant la conception et la qualité. Des chercheurs du projet 3DPRINTEDOPTICS, financés par l’UE, vont s'attacher à trouver le procédé de production parfait pour créer des prototypes micro-optiques à la demande d’une taille inférieure au micromètre et extrêmement flexibles grâce à la technique d’écriture au laser femtoseconde. L’objectif ultime consiste à produire un microscope encore plus petit que ceux déjà utilisés à l’extrémité des fibres optiques, afin d’obtenir une précision d’imagerie sans précédent.

Objectif

Optics is abundant in today’s world. Smartphone cameras, optical sensors for autonomous driving, virtual and augmented reality, medical imaging technology, and many more areas all require tailored optical sensors. In most cases, the optical sensors are still based on classical optical systems. For instance, high-end cameras or high-quality endoscopes still utilize classical glass optics. The related markets have sizes of several tens of billion USD and grow with double digit rates.

For all applications, size is the limiting factor. There is a tremendous demand for imaging capabilities using optics at sizes below 1 mm, with the quality of classical optics, i.e. correction of aberrations, extremely high transmission, and broadband operation. Key features include also zooming, focusing, and f-number variation, as well as customized fields of view to realize foveated imaging and multi-aperture, multi-lens systems. Ideally, such optical systems provide 180° field of view with simultaneous zooming capabilities.

Here, we propose a novel type of micro-optics that is extremely flexible, can be created at demand, possesses unprecedented functionality, and delivers solutions to problems that could not be solved before.

The basic building block at the heart of our problem solution is the use of 3D printed microoptics by femtosecond direct laser writing. This method has all features to fulfil the above-mentioned requirements: It takes only a day from the idea to concept, optical design and simulation, and to manufacturing and testing, i.e. to generate a working prototype.

Our method will create a new class of optical elements, which enable the smallest microscope objective in the world on the tip of an optical fiber with unprecedented imaging accuracy and functionality, such as focusing and zooming capability.

Régime de financement

ERC-POC - Proof of Concept Grant

Institution d’accueil

UNIVERSITY OF STUTTGART
Contribution nette de l'UE
€ 150 000,00
Adresse
KEPLERSTRASSE 7
70174 Stuttgart
Allemagne

Voir sur la carte

Région
Baden-Württemberg Stuttgart Stuttgart, Stadtkreis
Type d’activité
Higher or Secondary Education Establishments
Liens
Coût total
Aucune donnée

Bénéficiaires (1)