Abstract
A compact KTA cascaded Raman system driven by a passively Q-switched Nd:YAG/Cr4+:YAG laser at 1064 nm was demonstrated for the first time. The output spectra with different cavity lengths were measured. Two strong lines with similar intensity were achieved with a 9 cm length cavity. One is the first-Stokes at 1146.8 nm with a Raman shift of 671 cm−1, and the other is the Stokes at 1178.2 nm with mixed Raman shifts of 234 cm−1 and 671 cm−1. At the shorter cavity length of 5 cm, the output Stokes lines with high intensity were still at 1146.8 nm and 1178.2 nm, but the intensity of 1178.2 nm was higher than that of 1146.8 nm. The maximum average output power of 540 mW was obtained at the incident pump power of 10.5 W with the pulse repetition frequency of 14.5 kHz and the pulse width around 1.1 ns. This compact passively Q-switched KTA cascaded Raman laser can yield multi-Stokes waves, which enrich laser output spectra and hold potential applications for remote sensing and terahertz generation.
Highlights
Owing to its high optical damage threshold, broad transparency range, and high nonlinear coefficient together with the low ionic conductivity, potassium titanyle arsenate (KTA) is considered to be a promising crystal for nonlinear optics applications
In summary, a compact passively Q-switched KTA cascaded Raman laser was demonstrated for the first time
A compact passively Q-switched KTA cascaded Raman laser was demonstrated for the first time
Summary
Owing to its high optical damage threshold, broad transparency range, and high nonlinear coefficient together with the low ionic conductivity, potassium titanyle arsenate (KTA) is considered to be a promising crystal for nonlinear optics applications. KTA has attracted increasing attention due to its potential application for efficient stimulated Raman laser operation [5,6,7]. Different from these commonly used Raman crystals, KTA and its isomorphs possess large Raman gain coefficient and small Raman shifts [19,20,21,22], such that it can generate a variety of high order Stokes lasers by cascade SRS.
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