2015
DOI: 10.1103/physreve.92.039903
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Publisher's Note: Extended particle-in-cell schemes for physics in ultrastrong laser fields: Review and developments [Phys. Rev. E92, 023305 (2015)]

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Cited by 41 publications
(51 citation statements)
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“…This allows for using a coarser grid than is typical for FDTDbased PIC-codes even with special schemes for the numerical dispersion mitigation. Furthermore, ELMIS implements an adaptive event generator 16 to efficiently handle the disparity of scales introduced by QED-effects. A coherent linearly polarized Gaussian X-ray pulse with wavelength k ¼ 5 nm interacts with a plasma of charge to mass ratio Z=A ¼ 0:5 and density such that S ¼ 10 À3 .…”
Section: Methods and Set-upmentioning
confidence: 99%
See 1 more Smart Citation
“…This allows for using a coarser grid than is typical for FDTDbased PIC-codes even with special schemes for the numerical dispersion mitigation. Furthermore, ELMIS implements an adaptive event generator 16 to efficiently handle the disparity of scales introduced by QED-effects. A coherent linearly polarized Gaussian X-ray pulse with wavelength k ¼ 5 nm interacts with a plasma of charge to mass ratio Z=A ¼ 0:5 and density such that S ¼ 10 À3 .…”
Section: Methods and Set-upmentioning
confidence: 99%
“…We present results from 3D simulations of X-ray driven wakefield acceleration, using the Particle-In-Cell (PIC) code ELMIS, 15 implementing QED effects. 16 We address the scalability of the accelerating structure, and the effect on electron acceleration from operating in the strong field QED regime already at moderate relativistic amplitudes, hence deducing the prospects and limitations of this regime.…”
Section: à3mentioning
confidence: 99%
“…It does this by factorizing the cascade into a product of first-order processes (nonlinear Compton scattering and Breit-Wheeler pair creation), which occur along the particle trajectory at locations pseudorandomly determined according to the appropriate LCFA probability rate. (See [45,46] for detailed discussion of this 'QED-PIC' concept. )…”
Section: The Positron Yield and Optimal Target Thicknessmentioning
confidence: 99%
“…In line with the current understanding of high-intensity laser matter interactions in the quantum regime, we model photon emission as a succession of incoherent one-photon events [17,[25][26][27]. There will be regimes where this assumption becomes challenged, for instance when extreme field strengths are reached such that αχ 2=3 ≳ 1.…”
mentioning
confidence: 99%
“…For these codes to be used for depletion calculations, each Compton process needs to be characterized by photon energy, angle of emission, and the number of absorbed photons. Furthermore, in numerical (QED-particle-in-cell) simulations of multistage emission processes, which lead to the formation of avalanches or cascades, photon and electron emission angles strongly determine the probability of the subsequent pair production or photon emission process, respectively [4,17,25,27,30,31]. We hence proceed by calculating these quantities.…”
mentioning
confidence: 99%