Multi-PW laser–driven proton acceleration using a plasma-lens target
Vojtěch Horný, Domenico Doria

TL;DR
Researchers used a multi-petawatt laser and a special two-layer target to accelerate protons to high energies, achieving up to 550 MeV.
Contribution
A novel double-layer target design is introduced to enhance proton acceleration efficiency using advanced laser technology.
Findings
Protons were accelerated up to 550 MeV using a synergistic combination of acceleration mechanisms.
The front layer of the target enhances laser coupling, improving proton acceleration efficiency.
Gamma-ray radiation was generated via nonlinear inverse Compton scattering during proton acceleration.
Abstract
We investigate laser-driven proton acceleration using state-of-the-art multi-petawatt laser technology and a double-layer target design. The front layer is composed of homogenised near-critical density carbon, which enhances the laser pulse through relativistic self-focusing, effectively acting as a lensing medium. This layer is paired with a solid plastic rear layer that serves as the primary acceleration medium. The thicknesses of both layers and the density of the front layer are optimised to maximise acceleration efficiency of the solid layer protons. These protons are accelerated up to 550 MeV through a synergistic interplay of acceleration mechanisms, with hole boring and light sail radiation pressure acceleration playing dominant roles. These mechanisms are further enhanced by target normal sheath acceleration, which benefits from increased laser-to-electron coupling, especially…
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Taxonomy
TopicsLaser-Plasma Interactions and Diagnostics · Atomic and Molecular Physics · Particle Accelerators and Free-Electron Lasers
