Oxford Lasers at AILU's ILAS 2025
Oxford Lasers is very active at this year’s Association of Industrial Laser Users’ (AILU’s) Industrial Laser Application Symposium (ILAS) scheduled for 26-27 March in Kenilworth, UK. We will have representation across company divisions with exhibits from our Imaging Division and multiple technical presentations from our R&D team on precision laser micromachining applications.
Oxford Lasers Imaging Division will be exhibiting at Table 23 to showcase our powerful FireBIRD and FireFLY laser illumination systems used in high-speed imaging techniques, as well as presenting our VisiSize P15+ particle sizing system. Our Imaging Division will be focusing on how these laser-based products enable high-speed imaging for process improvement of bright events in additive manufacturing and welding applications.
The Oxford Lasers micromachining capabilities will be represented by three of our Research and Development (R&D) team members who are presenting a wide range of innovative laser micromachining project results as well as Chairing a session during the technical conference.
Laser Micromachining Presentations
Wed, 26th March (11:15-11:30), Drilling 1
Dimitris Karnakis presenting “Ultrafast laser drilling of TGVs in glass interposers for advanced semiconductor packaging”
Thurs, 27th March 2025 (13:15-13:30), Drilling 2
Themis Karkantonis presenting “Ultrashort laser processing with MHz bursts: A new approach to improve production throughput in industrial applications”
Thurs, 27th March 2025 (13:30-13:45), Drilling 2
Toby Barnard presenting “Data driven strategies for heat management in high density drilling”
Dimitris Karnakis is chairing the Drilling 2 session on Thurs, 27th March 2025 (1pm-2:15pm)
Oxford Lasers' Commitment to Innovation in Industry
As a member of AILU, Oxford Lasers has nearly 50 years of laser innovation history with high-precision micromachining systems, contract services, research and development and laser-based imaging products. We keep pace with industry’s changing needs by pushing the boundaries of laser and photonics capabilities.
