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Phoebe

A high-performance framework for solving phonon and electron Boltzmann transport equations

Phoebe is an open-source code for the ab-initio computation of electron and phonon transport properties of crystalline materials.

It is designed to take advantage of HPC systems via MPI-OpenMP hybrid parallelism, memory-distributed computing via ScaLAPACK, and GPU accelerated calculation of scattering rates.

For more details, see:

  • Phoebe: a high-performance framework for solving phonon and electron Boltzmann transport equations.
    A. Cepellotti, J. Coulter, A. Johansson, N. S. Fedorova, B. Kozinsky. (2022).
    DOI:10.1088/2515-7639/ac86f6.

Tutorials, documentation of functionality and underlying theory can be found at:

For further questions and feature requests, please post on the discussions page for the git repo. If you feel you've found a bug or seen some unexpected behavior, please let us know by opening a git issue.


Current functionalities

Electronic Transport

  • Electron-phonon and phonon-electron scattering rates by Wannier interpolation
  • Electron-phonon scattering within the electron-phonon averaged (EPA) approximation
  • Electronic transport coefficients (mobility, conductivity, thermal conductivity, and Seebeck coefficient)

Phonon Transport

  • Phonon (lattice) thermal conductivity, including:
    • 3-phonon scattering from thirdOrder.py/ShengBTE or Phono3py force constants
    • Boundary, isotope, and phonon-electron scattering contributions
    • Lattice thermal conductivity calculations including both ph-ph and ph-el scattering

And more...

  • BTE solutions by RTA, iterative, variational, and relaxon solvers
  • Calculation of electron and phonon linewidths or relaxation times on a path
  • Wigner transport equation correction for electrons and phonons
  • Hydrodynamic transport properties (viscosity) for electrons and phonons