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UID:pretalx-juliacon-2026-N7CSPV@pretalx.com
DTSTART;TZID=CET:20260812T143000
DTEND;TZID=CET:20260812T144500
DESCRIPTION:Structured light in interaction with matter has been of interes
 t\, particularly as it relates to the production of high intensity gamma b
 eams. In our package\, [ElectronDynamicsModels.jl]([url](https://github.co
 m/SebastianM-C/ElectronDynamicsModels.jl))\, we developed a way to efficie
 ntly compute the radiated field resulting from the scattering of a Laguerr
 e-Gauss laser beam off a thin sheet of electrons. The electrons are repres
 ented as relativistic classical particles whose motion is integrated using
  _DifferentialEquations.jl_. _ModellingToolkit.jl_  was used to formulate 
 the model\, allowing us to take advantage of its compiler to generate effi
 cient _Julia_ code. Moreover\, this also enables an easy scaling to parall
 el ensemble simulations on the CPU and GPU. Besides performance\, this app
 roach is also useful for enabling higher precision computations\, which na
 turally leverage _Julia_'s multiple dispatch. Once the trajectories are kn
 own\, the far electromagnetic field can be computed over a grid of pixels 
 from the Lienardt-Wiechert potentials\, and finally we compute their Fouri
 er transform.
DTSTAMP:20260502T104024Z
LOCATION:Room 5
SUMMARY:A purely numeric approach to the nonlinear coherent Thomson scatter
 ing by structured light. - Petru-Vlad TOMA\, Sebastian Micluța-Câmpeanu
URL:https://pretalx.com/juliacon-2026/talk/N7CSPV/
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