# Generating strong cylindrical vector pulses via stimulated Brillouin   amplification

**Authors:** Zhi-Han Zhu, Peng Chen, Li-Wen Sheng, Yu-Lei Wang, Wei Hu, Yan-Qing, Lu, and Wei Gao

arXiv: 1703.00738 · 2017-04-04

## TL;DR

This paper demonstrates a method to generate high-power cylindrical vector pulses using stimulated Brillouin amplification, maintaining phase and polarization fidelity, enabling applications requiring intense structured light.

## Contribution

It introduces a novel approach to produce strong, high-energy cylindrical vector pulses via stimulated Brillouin amplification, extending the capability to high-power regimes.

## Key findings

- Generated 100 mJ-level CV pulses with 300 ps duration.
- Maintained phase and polarization fidelity after amplification.
- Potential for ultra-high intensity CV light through multi-pump systems.

## Abstract

Light with transverse polarization structure, such as radial and azimuthal polarization, enables and revives lots of applications based on light-matter interaction due to their unique focal properties. To date, studies referring to this topic mainly concentrate in weak-light domain, yet it should have gained more attention in strong-light domain. A main factor contributing to the current situation is that the generation devices cannot afford high power. Here, in this proof-of-principle work, we demonstrate the generation of strong single-longitudinal-mode (SLM) cylindrical vector (CV) short pulses via stimulated Brillouin amplification, specifically, the energy is transferred from a 700 ps pump to a 300 ps Stokes pulse via parametrically generated coherent phonons. After amplification, a 100 mJ-level SLM CV pulse light with 300 ps duration is obtained. Meanwhile, the phase and polarization structures are high fidelity maintained. This result provides a practicable way to generate strong CV light, and by extending this mechanism into multi-pump beam combing system, even an ultra-high intensity CV light can be expected.

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Source: https://tomesphere.com/paper/1703.00738