Litcius/Paper detail

Bayesian optimization of electron energy from laser wakefield accelerators

Petr Valenta, T. Zh. Esirkepov, Jan Ludwig, S. C. Wilks, S. V. Bulanov

2025Physical Review Accelerators and Beams8 citationsDOIOpen Access PDF

Abstract

We use Bayesian optimization in combination with three-dimensional particle-in-cell simulations to determine the optimal laser and plasma parameters that, for a given laser pulse energy, maximize the cut-off energy of an electron beam produced by laser wakefield accelerators. We assume a Gaussian laser driver with matched spot size and amplitude and investigate both self-guiding in a uniform-density plasma and guiding in a preformed plasma channel with matched radius. To interpret the simulation results quantitatively, we derive novel analytical expressions for the maximum electron energy and the corresponding acceleration distance, accounting for the effects of laser diffraction and energy depletion. Based on the results obtained, we discuss the potential scalability of the optimal input (plasma density, pulse duration, amplitude, spot size, and channel radius) and output (electron energy, electron charge, acceleration length, and acceleration efficiency) parameters to laser systems of arbitrary energy.

Topics & Concepts

LaserPlasma accelerationPhysicsAccelerationPlasma channelPlasmaOpticsElectronAmplitudeEnergy (signal processing)Pulse (music)Computational physicsGaussianBayesian optimizationCathode rayAtomic physicsBayesian probabilityChannel (broadcasting)Gaussian beamInertial confinement fusionComputer scienceDiffractionParticle acceleratorPulse durationRelativistic electron beamLaser beam qualityLaser-Plasma Interactions and DiagnosticsAdvanced X-ray Imaging TechniquesLaser-Matter Interactions and Applications