This document reports the work performed from M19 to M51. During this period, all work packages of the project have been active except for work package 1, the objectives and conclusions of which were described in the previous periodic report. Within the project, 7 key exploitable results have been defined in relation to the previously described project objectives. They are briefly described below:
- Ultrashort multibeam laser processing system for high throughput in micro-drilling and microtexturing tasks of large areas: This primarily involves know-how obtained regarding the construction of machines and prototypes containing high-power femtosecond lasers and multibeam delivery systems.
- Multibeam percussion drilling for producing Ti panels for HLFC structures: This is a drilling process developed for optimized quality and productivity with multibeam and high-power lasers.
- High power femtosecond laser source: A femtosecond laser source has been developed, amplified to slightly over one kilowatt of average power. To improve robustness and quality, the actual power used is, however, in the range of 700 W.
- Multibeam unit generator for ultrashort pulses at high average power: Two stages of multibeam generation have been developed. One is based on polarizing optics, and the other is based on DOE (diffractive optical element). With this strategy, virtually any type of laser beam division can be achieved at the laser head output.
- Multibeam scanner: A galvanometric mirror scanner with a large aperture capable of accepting a multibeam.
- Beam delivery Bridge Module: This is the main structure of the machine that accommodates the laser, the optical path, the axes, and the heads. The design undertaken in the project and the development of the structure itself are exploitable results applicable to future similar configurations. However, the main exploitable result in this area is the obtained know-how, applicable to future machine and prototype developments.
- Complete system design: This primarily consists of an exploitable result that may include the current design of the MULTIPOINT prototype, as well as applicable know-how for other similar prototypes..
The dissemination of all these results has been extensive and aimed at the scientific community, potential industrial users, and a general audience. Actions carried out, among others, include the development of publications for scientific journals, participation in conferences, organization of workshops, webinars, etc. More details on this aspect can be found in the deliverables of work package 7.