Enhanced strong-coupling stimulated Brillouin amplification assisted by Raman amplification

TL;DR

This paper introduces a novel scheme combining Raman and stimulated Brillouin scattering amplification to enhance seed laser intensity and duration while maintaining efficiency, supported by simulations and theoretical analysis.

Contribution

The study proposes a new combined Raman and SC-SBS amplification scheme that improves seed laser performance and suppresses instabilities, validated by multiple simulation methods.

Findings

Higher seed laser intensity achieved

Shorter seed pulse duration

Consistent results across simulations

Abstract

Higher intensity of strong-coupling stimulated Brillouin scattering (SC-SBS) amplification is achieved by supplementary Raman amplification. In the new scheme, a Raman pump laser first amplifies the seed pulse in the homogeneous plasma, then a SC-SBS pump laser continues the amplification in the inhomogeneous plasma in order to suppress the spontaneous instability of pump lasers. The intensity of seed laser gets higher and the duration of seed laser gets shorter than that in the pure SC-SBS scheme with the same incident energy, while the energy conversion effciency is not significantly reduced. We also found that the SC-SBS amplification is seeded by the \pi pulse of Raman amplification. The results obtained from envelope coupling equations, Vlasov simulations and two-dimensional particle-in-cell(PIC) simulations agree with each other. This scheme is a simple and effective way to improve the SC-SBS amplification and is easy to implement in experiments.