Cascaded Stokes polarization conversion in cubic Raman crystals
Copyright policy )Cascaded Stokes polarization conversion in cubic Raman crystals
We describe a theoretical approach based on Müller and tensor calculus for predicting the polarization state and gain of cascaded Stokes orders produced under coherent Raman scattering regime conditions. The formulation follows a Markovian-style implementation for F2g-type modes in Raman cubic crystals. The theoretical model is supported by experimental results that corroborate that the polarization and power of the cascaded Stokes orders can be effectively predicted using sequential calculus. We extend these results to a variety of crystal propagation directions, with the aim of facilitating the design of advanced solid-state Raman lasers.
- European Organization for Nuclear Research Switzerland
- University of Navarra Spain
- Macquarie University Australia
Raman cubic crystals, Polarization state, Markovian-style implementation
Raman cubic crystals, Polarization state, Markovian-style implementation
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