Kinetic modeling demonstrates that electron-electron and electron-phonon scattering each suffice to thermalize hot-electron distributions along distinct trajectories, with comparable timescales at weak excitations.
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An integrated workflow using version control, code review, automated testing, structured logging, metadata-rich output, and standardized post-processing creates a FAIR-aligned provenance chain from code development to published figures in numerical physics simulations.
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Competing thermalization pathways of photoexcited hot electrons
Kinetic modeling demonstrates that electron-electron and electron-phonon scattering each suffice to thermalize hot-electron distributions along distinct trajectories, with comparable timescales at weak excitations.
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From Code to Figure: A FAIR-Aligned Data Provenance Chain for Reproducible Simulation Research in Numerical Physics
An integrated workflow using version control, code review, automated testing, structured logging, metadata-rich output, and standardized post-processing creates a FAIR-aligned provenance chain from code development to published figures in numerical physics simulations.