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Highly efficient conversion of laser energy to hard x-rays in high-intensity laser–solid simulations

Stuart Morris, A. P. L. Robinson, C. P. Ridgers

2021ePubs (Science and Technology Facilities Council, Research Councils UK)21 citationsDOI

Abstract

We present simulations which predict significantly higher laser to X-ray efficiencies than those previously found in high intensity (1e20-1e22 W/cm2) laser-solid simulations. The bremsstrahlung emission is shown to last for 10-100 ps, which is difficult to model with conventional particle-in-cell (PIC) codes. The importance of collective effects is also demonstrated, showing the limitations of Monte Carlo modelling in these systems. A new, open-source hybrid-PIC code with bremsstrahlung routines has been developed to model this X-ray production in 3D. Special boundary conditions are used to emulate complex electron refluxing behaviour, which has been characterised in 2D full-PIC simulations. The peak X-ray efficiency was recorded in thick gold targets, with 7.4% conversion of laser energy into X-rays of energy 1 MeV or higher. The target size is shown to play a role in the conversion efficiency and angular distribution of emitted X-rays, and a simple analytic model is presented for estimating these efficiencies.

Topics & Concepts

BremsstrahlungPhysicsLaserMonte Carlo methodEnergy conversion efficiencyElectronAtomic physicsRadiationIntensity (physics)Energy (signal processing)Computational physicsOpticsNuclear physicsOptoelectronicsQuantum mechanicsMathematicsStatisticsLaser-Plasma Interactions and DiagnosticsHigh-pressure geophysics and materialsAdvanced X-ray Imaging Techniques
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