学术文献库

Laser beams carrying orbital angular momentum (OAM) provide an additional degree of freedom and have found wide applications ranging from optical communications and optical manipulation to quantum information. The efficient generation and operation of ultra-intense OAM beams is a big challenge that has to be met, currently setting a limit to the potential applications of ultra-intense OAM beams in high-energy-density physics studies. Here, we theoretically and numerically demonstrate for the first time that a pump beam with a new OAM state is generated by coupling of the seed pulse with OAM Langmuir waves arising from both backward and forward stimulated Raman scattering mechanisms. Advantage is taken of the high energy transfer efficiency from pump to amplified seed beams by operating in the non-linear regime, as this significantly reduces the size of amplification system and promotes access to high-intensity OAM laser beams for scientific and industrial applications.