Citations
=========

If you use ``lww-transport`` in your research, please cite both the software
itself and the original physics papers that the implementation is based on.

**Software citation** (BibTeX)::

    @software{camposano2026lwwtransport,
      author    = {Camposano, Anthony Val},
      title     = {{lww-transport: A Python package for 1D Lattice
                   Weyl-Wigner / Wigner-Poisson quantum transport simulations}},
      year      = {2026},
      version   = {0.1.0},
      license   = {MIT},
      url       = {https://github.com/antble/lww-usc},
    }

Please also cite the underlying physics methodology (see references below):
[BuotJensen1990]_ and [JensenBuot1991Method]_.

Core LWW/Wigner transport references
-------------------------------------

.. [Buot2009] F. A. Buot, *Nonequilibrium Quantum Transport Physics in
   Nanosystems: Foundation of Computational Nonequilibrium Physics in
   Nanoscience and Nanotechnology*. World Scientific, 2009.

.. [BuotJensen1990] F. A. Buot and K. L. Jensen, "Lattice Weyl-Wigner
   formulation of exact many-body quantum-transport theory and applications to
   novel solid-state quantum-based devices," *Physical Review B*, vol. 42,
   no. 15, p. 9429, 1990.

.. [JensenBuot1991Method] K. L. Jensen and F. A. Buot, "The methodology of
   simulating particle trajectories through tunneling structures using a Wigner
   distribution approach," *IEEE Transactions on Electron Devices*, vol. 38,
   no. 10, pp. 2337-2347, 1991. DOI:
   https://doi.org/10.1109/16.88522

.. [JensenBuot1991PRL] K. L. Jensen and F. A. Buot, "Numerical simulation of
   intrinsic bistability and high-frequency current oscillations in resonant
   tunneling structures," *Physical Review Letters*, vol. 66, no. 8, p. 1078,
   1991.

.. [Frensley1990] W. R. Frensley, "Boundary conditions for open quantum systems
   driven far from equilibrium," *Reviews of Modern Physics*, vol. 62, no. 3,
   p. 745, 1990. DOI: https://doi.org/10.1103/RevModPhys.62.745

.. [Jiang2011] H. Jiang, W. Cai, and R. Tsu, "Accuracy of the Frensley inflow
   boundary condition for Wigner equations in simulating resonant tunneling
   diodes," *Journal of Computational Physics*, vol. 230, no. 5, pp. 2031-2044,
   2011.

.. [Barraud2009] S. Barraud, "Phase-coherent quantum transport in silicon
   nanowires based on Wigner transport equation: Comparison with the
   nonequilibrium-Green-function formalism," *Journal of Applied Physics*,
   vol. 106, no. 6, p. 063714, 2009.

.. [Taj2006] D. Taj, L. Genovese, and F. Rossi, "Quantum-transport simulations
   with the Wigner-function formalism: Failure of conventional
   boundary-condition schemes," *EPL (Europhysics Letters)*, vol. 74, no. 6,
   p. 1060, 2006.

.. [KadanoffBaym1963] L. P. Kadanoff and G. Baym, "Quantum statistical
   mechanics," *American Journal of Physics*, vol. 31, no. 4, pp. 309-309, 1963.