Photonics Spectra BioPhotonics Vision Spectra Photonics Showcase Photonics Buyers' Guide Photonics Handbook Photonics Dictionary Newsletters Bookstore
Latest News Latest Products Features All Things Photonics Podcast
Marketplace Supplier Search Product Search Career Center
Webinars Photonics Media Virtual Events Industry Events Calendar
White Papers Videos Contribute an Article Suggest a Webinar Submit a Press Release Subscribe Advertise Become a Member


Onefive, European XFEL Collaborate on Laser Front-End

Laser developer Onefive GmbH and the laser group of the European X-Ray Free Electron Laser (XFEL) GmbH research facility have joined to develop and commission an all-fiber front-end for a laser system within the facility.


The air-cooled Origami - 10 XP Dual Burst laser featuring the dual output for simultaneous seeding and pumping of a non-collinear optical parametric amplifier installed at the European XFEL. Courtesy of Onefive GmbH.

The European XFEL is developing high-power burst mode femtosecond pump-probe lasers to be used for experiments in combination with the facility’s x-ray beams. The ultrashort, high-intensity x-ray laser pulses available at the facility will enable studies of ultrafast processes in solids, gas-phase, chemical and biomolecular structures, and extreme states of matter down to the atomic level. Its pump-probe lasers will typically activate samples, followed by probing with the x-ray pulses. The laser sources rely on very high-power and high-energy sub-picosecond pulses at 1-μm wavelength, arranged in low-duty cycle burst patterns.

The Origami-10 XP Dual Burst fiber-based front-end laser system is at the core of the European XFEL pump-probe laser. The system has been customized by Onefive to the unique requirements of the pump-probe laser and is seeded with a 1-μm, ultra-low noise femtosecond laser with consecutive pulse picking and amplification.

Onefive is a developer of OEM ultrafast lasers for medical, biological, environmental, security, sensing, material processing and R&D applications.

Explore related content from Photonics Media




LATEST NEWS

Terms & Conditions Privacy Policy About Us Contact Us

©2024 Photonics Media