Raydiance awarded $1.75 million for ultrafast fiber laser research

Nov. 9, 2010
Petaluma, CA-- Femtosecond fiber laser maker Raydiance, Inc. has been awarded three competitive US government contracts totaling $1.75 million to develop technologies with the express goal of delivering high power fiber ultrafast laser capabilities not available today.

Petaluma, CA -- Femtosecond fiber laser maker Raydiance, Inc. has been awarded three competitive US government contracts totaling $1.75 million to develop technologies with the express goal of delivering high power fiber ultrafast laser capabilities not available today. The contracts, awarded by the National Science Foundation (NSF) and the U.S. Navy, focus on three critical areas: novel optical amplification techniques, pulse compressor technology, and advanced optical fibers.

The NSF grant is a $500,000, Phase II Small Business Innovation Research (SBIR) award to develop new methods for amplifying ultrafast laser pulses without the distortion effects that currently limit amplification levels. A Navy Phase II.5 Small Business Technology Transfer (STTR) award focuses efforts on compressor technology--the final stage of ultrafast laser pulse generation when the pulses are compressed in time to create exceptionally high peak power pulses.

The third award, also from the Navy, is a $750,000 Phase II.5 SBIR project to develop advanced optical fibers--termed higher order mode (HOM) fibers--capable of amplifying ultrafast pulses. Collectively, the successful results of these projects will provide a viable path to ultrafast performance levels that are an order of magnitude greater than what is currently considered state of the art.

"With the explosion of commercial applications for fiber ultrafast lasers, our customers are demanding still higher energy pulses and output power, factors that will further expand opportunities for this technology," said Scott Davison, president of Raydiance. "We are delighted to be leading the effort to push the boundaries of what's possible with this unique form of light."

For more information visit Raydiance online.

About the Author

Stephen G. Anderson | Director, Industry Development - SPIE

 Stephen Anderson is a photonics industry expert with an international background and has been actively involved with lasers and photonics for more than 30 years. As Director, Industry Development at SPIE – The international society for optics and photonics – he is responsible for tracking the photonics industry markets and technology to help define long-term strategy, while also facilitating development of SPIE’s industry activities. Before joining SPIE, Anderson was Associate Publisher and Editor in Chief of Laser Focus World and chaired the Lasers & Photonics Marketplace Seminar. Anderson also co-founded the BioOptics World brand. Anderson holds a chemistry degree from the University of York and an Executive MBA from Golden Gate University.    

Sponsored Recommendations

Optical Filter Orientation Guide

Sept. 5, 2024
Ensure optimal performance of your optical filters with our Orientation Guide. Learn the correct placement and handling techniques to maximize light transmission and filter efficiency...

Advanced Spectral Accuracy: Excitation Filters

Sept. 5, 2024
Enhance your fluorescence experiments with our Excitation Filters. These filters offer superior transmission and spectral accuracy, making them ideal for exciting specific fluorophores...

Raman Filter Sets for Accurate Spectral Data

Sept. 5, 2024
Enhance your Raman spectroscopy with our specialized Raman Filter Sets. Designed for high precision, these filters enable clear separation of Raman signals from laser excitation...

Precision-Engineered Longpass Filters

Sept. 5, 2024
Discover our precision-engineered Longpass Filters, designed for high transmission and optimal wavelength separation. Perfect for fluorescence imaging, microscopy, and more.

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!