LASY (LAser manipulation made eaSY) - An Open-Source Python Library for Easy Interfacing of Laser Pulses Between Experiments and Simulations

Shalloo, Rob; Kirchen, Manuel; Ferran Pousa, Angel; Vay, Jean-Luc; Sinn, Alexander; Andriyash, Igor; Huebl, Axel; Thévenet, Maxence; Jalas, Soeren; Fedeli, Luca; Lehe, Remi

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@INPROCEEDINGS{Shalloo:600490,
      author       = {Shalloo, Rob and Andriyash, Igor and Fedeli, Luca and
                      Ferran Pousa, Angel and Huebl, Axel and Jalas, Soeren and
                      Kirchen, Manuel and Lehe, Remi and Sinn, Alexander and Vay,
                      Jean-Luc and Thévenet, Maxence},
      title        = {{LASY} ({LA}ser manipulation made ea{SY}) - {A}n
                      {O}pen-{S}ource {P}ython {L}ibrary for {E}asy {I}nterfacing
                      of {L}aser {P}ulses {B}etween {E}xperiments and
                      {S}imulations},
      reportid     = {PUBDB-2023-08003},
      year         = {2023},
      note         = {FLARE Facility},
      abstract     = {While multiple works have demonstrated the importance of
                      using realistic laser profiles for simulations of
                      laser-plasma accelerators to accurately reproduce
                      experimental measurements, the handshake between experiments
                      and simulations can be challenging. Similarly, transferring
                      a laser pulse from one code to another, as needed for
                      start-to-end simulations is often not straightforward.In
                      this talk, we will present LASY (LAser manipulations made
                      eaSY), a new open-source Python library to simplify these
                      workflows. Developed in an international collaboration
                      between experimental, theoretical, and computational
                      physicists, LASY can be used to create a laser profile from
                      a measurement, from a simulation, or from an analytic
                      description, propagate it, manipulate it (e.g., convert from
                      field to envelope, or from vector potential to electric
                      field) and write it to file in compliance with the openPMD
                      standard. The profile can then be used as input by any
                      simulation code that adopts the standard.[1]
                      https://github.com/LASY-org/lasy[2]
                      https://github.com/openPMD/openPMD-standard},
      month         = {Nov},
      date          = {2023-11-13},
      organization  = {HELPMI Workshop, Hybrid (Germany), 13
                       Nov 2023 - 14 Nov 2023},
      subtyp        = {Invited},
      cin          = {MPA / MPA1 / MPA4},
      cid          = {I:(DE-H253)MPA-20200816 / I:(DE-H253)MPA1-20210408 /
                      I:(DE-H253)MPA4-20220318},
      pnm          = {621 - Accelerator Research and Development (POF4-621)},
      pid          = {G:(DE-HGF)POF4-621},
      experiment   = {EXP:(DE-MLZ)NOSPEC-20140101},
      typ          = {PUB:(DE-HGF)6},
      url          = {https://bib-pubdb1.desy.de/record/600490},
}

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