Full company details
Laser Quantum
A Novanta Co.
Emery Court, Vale Rd.
Stockport, Cheshire SK4 3GL
United Kingdom
venteon OPCPA: High rep rate amplified few-cycle pulses!
Visit Laser Quantum at Laser World of Photonics, Munich (booth B3.314) to see a live demonstration of the
venteon OPCPA. The development of Ti:Sapphire laser oscillators and amplifiers has revolutionized the use of femtosecond lasers in science and growing numbers of industrial applications, ranging from cutting, to bio-imaging and basic research in pump-probe spectroscopy and light-matter interaction. Many exciting new applications have arisen in recent years including the generation of High-order Harmonics (HHG), which has opened the door to the new field of attosecond physics. The demand of high energy, ultrashort, CEP stable few-cycle pulses at high repetition rate is ever-growing. To overcome the limitations in the traditional Ti:Sapphire technology, a positive alternative technique, the Optical Parametric Chirped Pulse Amplifier (OPCPA), has shown its full potential for few-cycle pulse generation with high energy and high repetition rates.
The rapid scientific developments in this field holds the promise to replace the established Ti:Sapphire amplifiers as the next generation light source with many advantageous specifications. With Laser Quantum pioneering the field, the first few-cycle
venteon OPCPA system will be demonstrated at the Laser Quantum booth in Munich (B3.314), making this technique available to a wide community of users. As the OPCPA concept can be further up-scaled to higher energies and different wavelength regimes, this exciting light source is likely to initiate a second revolution in the short-pulse market by greatly enhancing the variety of available pulse parameters from commercial sources.
Watch out for our upcoming webinar on ‘Few-cycle optical parametric amplifiers - the next generation of high power amplifier systems’, Tuesday 20th June @ 15:00 BST. The webinar will give an overview on applications and the benefit of the high photon flux provided by the OPCPA.
To find out more information about the few-cycle pulse generation with stable carrier-envelope phase, please visit:
www.laserquantum.com/OPCPA.