Numerical methods for kinetic equations in semiconductor superlattices
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Publication:483861
DOI10.1016/j.cpc.2012.11.005zbMath1302.82118OpenAlexW2048398853MaRDI QIDQ483861
E. Cebrián, Manuel Carretero, Luis L. Bonilla, Mariano Alvaro
Publication date: 17 December 2014
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cpc.2012.11.005
particles methodChapman-Enskog methodself-sustained current oscillationssemiconductor superlatticeBoltzmann-Poisson kinetic equation
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Cites Work
- Self-sustained current oscillations in the kinetic theory of semiconductor superlattices
- Deterministic particle simulations of the Boltzmann transport equation of semiconductors
- Numerical analysis of the weighted particle method applied to the semiconductor Boltzmann equation
- Numerical Study of Hyperbolic Equations with Integral Constraints Arising in Semiconductor Theory
- A Deterministic Particle Method for Solving Kinetic Transport Equations: The Semiconductor Boltzmann Equation Case
- On a hierarchy of macroscopic models for semiconductors
- Nonlinear Electron and Spin Transport in Semiconductor Superlattices
- Semiconductor superlattices: a model system for nonlinear transport
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