Dr. Stefan Olsson Robbie Profile

Dr. Stefan Olsson Robbie

at Element Six Ltd

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Proceedings Article | 20 February 2018 Presentation + Paper

Pushing the boundaries of high power lasers: low loss, large area CVD diamond

Benjamin Wickham, Frank Schoofs, Stefan Olsson-Robbie , Andrew Bennett, Richard Balmer

Proceedings Volume 10513, 1051306 (2018) https://doi.org/10.1117/12.2289964

KEYWORDS: Diamond, Crystals, Birefringence, Absorption, Optics manufacturing, Chemical vapor deposition, Polishing, Surface finishing, Laser crystals

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Synthetic CVD diamond has exceptional properties, including broad spectral transmission, physical and chemical robustness, and the highest thermal conductivity of any known material, making diamond an attractive material for medium to high power optical and laser applications, minimizing the detrimental effects of thermal lensing and radiation damage. Example applications include ATR prisms, Raman laser crystals, extra- and intra-cavity laser cooling. In each case the demands on the fundamental material properties and fabrication routes are slightly different. In recent years, there has been good progress in the development of low-loss, single crystal diamond, suitable for higher power densities, higher pulse rates and more demanding intra- and extra-cavity thermal management. The adoption of single crystal diamond in this area has however, been hindered by the availability of large area, low birefringence plates.

To address this, we report a combination of CVD growth and processing methods that have enabled the manufacture of large, low defect substrates. A final homoepitaxial, low absorption synthesis stage has produced plates with large area (up to 16 mm edge length), low absorption (α<0.005 cm-1 at 1064 nm), and low birefringence (∆n <10^-5), suitable for double-sided intra-cavity cooling. We demonstrate the practical advances in synthesis, including increasing the size while reducing in-use losses compared to previous generations of single crystal material, and practical developments in processing and implementation of the single crystal diamond parts, optimizing them for use in a state-of-the-art femto-second pulsed Ti:Sa thin disk gain module, all made in collaboration with the wider European FP7 funded Ti:Sa TD consortium.

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