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damien_querlioz [2015/07/22 12:03] – [Wigner-specific research] weinbub | damien_querlioz [2019/10/30 18:31] (current) – [Affiliation(s)] weinbub |
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===== Wigner-specific research ===== | ===== Wigner-specific research ===== |
| (selection) |
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| * [[Damien Querlioz]] and [[Philippe Dollfus]], [[https://onlinelibrary.wiley.com/doi/book/10.1002/9781118618479|The Wigner Monte-Carlo Method for Nanoelectronic Devices: A Particle Description of Quantum Transport and Decoherence]] (John Wiley & Sons, 2013) |
| * P. Schwaha, [[Damien Querlioz]], [[Philippe Dollfus]], J. Saint-Martin, [[Mihail (Mixi) Nedjalkov]], and [[Siegfried Selberherr]], [[https://link.springer.com/article/10.1007%2Fs10825-013-0480-9|Decoherence Effects in the Wigner Function Formalism]], J. Comput. Electron. **12**, 388 (2013) |
| * [[Mihail (Mixi) Nedjalkov]], [[Siegfried Selberherr]], [[David K. Ferry]], [[Dragica Vasileska]], [[Philippe Dollfus]], [[Damien Querlioz]], [[Ivan Dimov]], and P. Schwaha, [[https://www.sciencedirect.com/science/article/pii/S0003491612001558?via%3Dihub|Physical Scales in the Wigner-Boltzmann Equation]], Ann. Phys. **328**, 220 (2012) |
| * D. Querlioz and P. Dollfus, [[https://onlinelibrary.wiley.com/doi/book/10.1002/9781118618479|The Wigner Monte Carlo Method for Nanoelectronic Devices]] (John Wiley & Sons, 2010) |
| * [[Damien Querlioz]], Jerome Saint-Martin, and [[Philippe Dollfus]], [[https://link.springer.com/article/10.1007/s10825-010-0319-6|Implementation of the Wigner-Boltzmann transport equation within particle Monte Carlo simulation]], J. Comput. Electron. **9**, 224 (2010) |
| * [[Damien Querlioz]], Huu-Nha Nguyen, Jerome Saint-Martin, Arnaud Bournel, Sylvie Galdin-Retailleau, and [[Philippe Dollfus]], [[https://link.springer.com/article/10.1007/s10825-009-0281-3|Wigner-Boltzmann Monte Carlo approach to nanodevice simulation: from quantum to semiclassical transport]], J. Comput. Electron. **8**, 324 (2009) |
| * Huu-Nha Nguyen, [[Damien Querlioz]], Sylvie Galdin-Retailleau, Arnaud Bournel, and [[Philippe Dollfus]], [[https://ieeexplore.ieee.org/document/5091161|Wigner Monte Carlo simulation of CNTFET: Comparison between semi-classical and quantum transport]], Proc. IWCE, 257 (2009) |
| * [[Damien Querlioz]], Jerome Saint-Martin, Arnaud Bournel, and [[Philippe Dollfus]], [[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.78.165306|Wigner Monte Carlo simulation of phonon-induced electron decoherence in semiconductor nanodevices]], Phys. Rev. B **78**, 165306 (2008) |
| * [[Damien Querlioz]], Jerome Saint-Martin , Van-Nam Do, Arnaud Bournel, and [[Philippe Dollfus]], [[https://ieeexplore.ieee.org/abstract/document/4011939|A study of quantum transport in end-of-roadmap DG-MOSFETs using a fully self-consistent Wigner Monte Carlo approach]], IEEE T. Nanotechnol. **5**, 737 (2006) |
| * [[Damien Querlioz]], [[Philippe Dollfus]], Van-Nam Do, Bournel, Arnaud, et al., [[https://link.springer.com/article/10.1007/s10825-006-0044-3|An improved Wigner Monte-Carlo technique for the self-consistent simulation of RTDs]], J. Comput. Electron. **5**, 443 (2006) |
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[1] Querlioz, Damien and Dollfus, Philippe: “The Wigner Monte-Carlo Method for Nanoelectronic Devices: A Particle Description of Quantum Transport and Decoherence”, John Wiley & Sons, 2013. | |
===== Affiliation(s) ===== | ===== Affiliation(s) ===== |
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* Research Scientist, CNRS, Université Paris-Sud, France | * Group Leader, CNRS, Université Paris-Sud, France |
===== Email ===== | |
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[[damien.querlioz@gmail.com]] | |
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===== Additional information ===== | ===== Additional information ===== |
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* [[http://computational-electronics.ief.u-psud.fr/?page_id=676|University Profile]] | * [[http://integnano.c2n.u-psud.fr/?page_id=140|Group Website]] |
* [[http://www.ief.u-psud.fr/~querlioz/|Personal Website]] | |