Control of the effects of crystal dispersion at different orders in the mixing of three phase-matched waves on a 5- to 100-fs time scale

A Alessandra Andreoni
M Maria Bondani
M Marco A.C. Potenza
Published: 30-06-2000 DOI: https://doi.org/10.21641/demo.vi1-2.130 Pages: 16-19 Views: 13
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https://doi.org/10.21641/demo.vi1-2.130

Keywords:

three-wave mixing ultra-broadband phasematching β-barium borate group-velocity matching groupvelocity dispersion

Abstract

A number of manners to obtain first-order achromatic phase matching of both type I and type II are presented and the most advantageous ones are identified to generate high-spectral quality 100-fs pulses by either parametric generation or frequency up-conversion. In the case of frequency-doubling high-energy 5-fs Ti:sapphire pulses, a non-collinear phase-matching I geometry in a b-barium borate crystal cut at 44 deg is devised that should allow high conversion efficiency, virtually without pulse lengthening and intra-pulse frequency chirp due to group-velocity dispersion.

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How to Cite

Andreoni, Alessandra, et al. “Control of the Effects of Crystal Dispersion at Different Orders in the Mixing of Three Phase-Matched Waves on a 5- to 100-Fs Time Scale”. DEMO, no. 1-2, June 2000, pp. 16-19, https://doi.org/10.21641/demo.vi1-2.130.