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Amplification and generation of ultra-intense twisted laser pulses via stimulated Raman scattering.


ABSTRACT: Twisted Laguerre-Gaussian lasers, with orbital angular momentum and characterized by doughnut-shaped intensity profiles, provide a transformative set of tools and research directions in a growing range of fields and applications, from super-resolution microcopy and ultra-fast optical communications to quantum computing and astrophysics. The impact of twisted light is widening as recent numerical calculations provided solutions to long-standing challenges in plasma-based acceleration by allowing for high-gradient positron acceleration. The production of ultra-high-intensity twisted laser pulses could then also have a broad influence on relativistic laser-matter interactions. Here we show theoretically and with ab initio three-dimensional particle-in-cell simulations that stimulated Raman backscattering can generate and amplify twisted lasers to petawatt intensities in plasmas. This work may open new research directions in nonlinear optics and high-energy-density science, compact plasma-based accelerators and light sources.

SUBMITTER: Vieira J 

PROVIDER: S-EPMC4738314 | biostudies-literature | 2016 Jan

REPOSITORIES: biostudies-literature

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Amplification and generation of ultra-intense twisted laser pulses via stimulated Raman scattering.

Vieira J J   Trines R M G M RM   Alves E P EP   Fonseca R A RA   Mendonça J T JT   Bingham R R   Norreys P P   Silva L O LO  

Nature communications 20160128


Twisted Laguerre-Gaussian lasers, with orbital angular momentum and characterized by doughnut-shaped intensity profiles, provide a transformative set of tools and research directions in a growing range of fields and applications, from super-resolution microcopy and ultra-fast optical communications to quantum computing and astrophysics. The impact of twisted light is widening as recent numerical calculations provided solutions to long-standing challenges in plasma-based acceleration by allowing  ...[more]

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