Deliverables

D1.1 Technical report: Characterisation of the high-power 1216, 916 nm and 910 nm VECSELs

D1.2 Technical Report: Feasibility & design report for VECSELs with high-power operation at 856 nm

D2.1 Technical report: Characterisation of the intracavity SHG VECSELs (910 nm)

D2.2 Technical report: Characterisation of the intracavity SHG VECSELs (860 nm)

D2.3 Technical report: Preliminary performance report of DUV Laser systems

D2.4 Technical report: Performance report of SHG in the 210-220 nm range

D2.5 Demonstrator: Fully developed, high-power DUV laser systems at 229, 227.5, and 214 nm

D3.1 Technical report: Design and first characterisation of the SFG resonator

D3.2 Technical report: Characterisation of the enhancement resonator to produce 218 nm light and first SFG

D3.3 Demonstrator: High power laser system for 185 nm laser radiation

D4.1 Technical report: Mirror characterisation and substrate identification.

D4.2 Technical report: Performance of polarising optics in the DUV. 

D4.3 Technical report: Design and quality control system to deliver high quality nonlinear crystals. 

D4.4 Technical report: Robust coatings for high reflectivity mirrors in vacuum. 

D5.1 Technical report: A high-density MOT of AlF molecules, enabled by new high-power DUV lasers. 

D5.2 Technical report: Laser cooling of a new atomic species Zn and the first spectroscopy of the 1S-1P transition in Hg.

D5.3 Technical report: A Bragg interferometer using laser-cooled Cd atoms

D5.4 Technical report: High-resolution ARPES study of novel topological magnets using high-power DUV lasers.

D6.1 Data management plan

D6.2 Project handbook & Consortium agreement

D6.3 Project activity and management report (month 6)

D6.4 First progress report

D6.5 Second progress report

D6.6 Final report

D7.1 Mid-term report on dissemination, outreach, and exploitation 

D7.2 Final report on dissemination, outreach, and exploitation