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Journal of Computational and Theoretical Transport Volume 45, 2016 - Issue 7: Special Issue Part 5 of 5: Papers from the 24th International Conference on Transport Theory
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Original Articles

Monte Carlo Analysis of Thermal Effects in Monolayer Graphene

M. CocoDipartimento di Matematica e Informatica, Università di Catania, Catania, Italy
,
G. MascaliDipartimento di Matematica ed Informatica, Università della Calabria and INFN-Gruppo c. Cosenza, Rende (Cosenza), ItalyCorrespondence[email protected]
&
V. RomanoDipartimento di Matematica ed Informatica, Università di Catania, Catania, Italy
Pages 540-553 | Published online: 14 Oct 2016

Citations (23)

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Read on this site (2)

Liliana Luca, Giovanni Mascali, Giovanni Nastasi & Vittorio Romano. (2020) Comparing Kinetic and MEP Model of Charge Transport in Graphene. Journal of Computational and Theoretical Transport 49:7, pages 368-388.
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Marco Coco & Vittorio Romano. (2018) Assessment of the Constant Phonon Relaxation Time Approximation in Electron–Phonon Coupling in Graphene. Journal of Computational and Theoretical Transport 47:1-3, pages 246-266.
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Articles from other publishers (21)

Marco Coco. (2023) Coupled Monte Carlo–Deterministic simulation of thermal behavior of graphene on substrate. International Journal of Modern Physics B 37:31.
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Marco Coco. (2023) Planar phonon anisotropy, and a way to detect local equilibrium temperature in graphene. Applications in Engineering Science 15, pages 100135.
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Giovanni Nastasi & Vittorio Romano. (2022) Mathematical aspects and simulation of electron–electron scattering in graphene. Zeitschrift für angewandte Mathematik und Physik 74:1.
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Marco Coco, Paolo Bordone, Lucio Demeio & Vittorio Romano. (2021) Pauli principle and the Monte Carlo method for charge transport in graphene. Physical Review B 104:20.
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Marco Coco, Giovanni Mascali & Vittorio Romano. (2021) About the Definition of the Local Equilibrium Lattice Temperature in Suspended Monolayer Graphene. Entropy 23:7, pages 873.
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Giovanni Nastasi & Vittorio Romano. (2020) Discontinuous Galerkin approach for the simulation of charge transport in graphene. Ricerche di Matematica 70:1, pages 149-165.
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Giovanni Nastasi & Vittorio Romano. 2021. Scientific Computing in Electrical Engineering. Scientific Computing in Electrical Engineering 83 91 .
Giovanni Nastasi & Vittorio Romano. (2020) A full coupled drift-diffusion-Poisson simulation of a GFET. Communications in Nonlinear Science and Numerical Simulation 87, pages 105300.
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Marco Coco & Giovanni Nastasi. (2020) Simulation of bipolar charge transport in graphene on h-BN. COMPEL - The international journal for computation and mathematics in electrical and electronic engineering 39:2, pages 449-465.
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Omar Morandi. 2020. Scientific Computing in Electrical Engineering. Scientific Computing in Electrical Engineering 147 159 .
Liliana Luca & Vittorio Romano. 2020. Scientific Computing in Electrical Engineering. Scientific Computing in Electrical Engineering 133 145 .
Marco Coco, Giovanni Mascali & Vittorio Romano. 2020. Scientific Computing in Electrical Engineering. Scientific Computing in Electrical Engineering 115 123 .
Vito Dario Camiola, Giovanni Mascali & Vittorio RomanoVito Dario Camiola, Giovanni Mascali & Vittorio Romano. 2020. Charge Transport in Low Dimensional Semiconductor Structures. Charge Transport in Low Dimensional Semiconductor Structures 229 283 .
Vito Dario Camiola, Giovanni Mascali & Vittorio RomanoVito Dario Camiola, Giovanni Mascali & Vittorio Romano. 2020. Charge Transport in Low Dimensional Semiconductor Structures. Charge Transport in Low Dimensional Semiconductor Structures 1 27 .
Liliana Luca & Vittorio Romano. (2019) Quantum corrected hydrodynamic models for charge transport in graphene. Annals of Physics 406, pages 30-53.
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Marco Coco & Vittorio Romano. (2018) Simulation of Electron–Phonon Coupling and Heating Dynamics in Suspended Monolayer Graphene Including All the Phonon Branches. Journal of Heat Transfer 140:9.
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Liliana Luca & Vittorio Romano. (2018) Comparing linear and nonlinear hydrodynamical models for charge transport in graphene based on the Maximum Entropy Principle. International Journal of Non-Linear Mechanics 104, pages 39-58.
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O Morandi. (2018) Quantum motion with trajectories: beyond the Gaussian beam approximation. Journal of Physics A: Mathematical and Theoretical 51:25, pages 255301.
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Orazio Muscato & Vincenza Di Stefano. (2017) A hierarchy of hydrodynamic models for silicon carbide semiconductors. Communications in Applied and Industrial Mathematics 8:1, pages 251-264.
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Orazio Muscato. (2017) A benchmark study of the Signed-particle Monte Carlo algorithm for the Wigner equation. Communications in Applied and Industrial Mathematics 8:1, pages 237-250.
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. 2017. Handbook of Optoelectronic Device Modeling and Simulation. Handbook of Optoelectronic Device Modeling and Simulation 129 166 .

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