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mihail_mixi_nedjalkov [2019/11/06 11:48]
weinbub [Wigner Research]
mihail_mixi_nedjalkov [2019/11/06 11:57] (current)
weinbub [Wigner Research]
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 +  * [[Mihail (Mixi) Nedjalkov]],​ [[Josef Weinbub]], Mauro Ballicchia, [[Siegfried Selberherr]],​ [[Ivan Dimov]], and [[David K. Ferry]], [[https://​journals.aps.org/​prb/​abstract/​10.1103/​PhysRevB.99.014423|Wigner equation for general electromagnetic fields: The Weyl-Stratonovich transform]],​ Phys. Rev. B **99**, ​ 014423 (2019)
 +  * M. Benam, [[Mihail (Mixi) Nedjalkov]],​ [[Siegfried Selberherr]],​ [[https://​link.springer.com/​chapter/​10.1007%2F978-3-030-10692-8_29|A Wigner Potential Decomposition in the Signed-Particle Monte Carlo Approach]], in: Numerical Methods and Applications,​ Lecture Notes in Computer Science **11189**, 263 (2019)
 +  * Mauro Ballicchia, [[David K. Ferry]], [[Mihail (Mixi) Nedjalkov]],​ [[Josef Weinbub]], [[https://​www.mdpi.com/​2076-3417/​9/​7/​1344|Investigating Quantum Coherence by Negative Excursions of the Wigner Quasi-Distribution]],​ Appl. Sci. **9**, 1344 (2019)
 +  * [[Josef Weinbub]], Mauro Ballicchia, and [[Mihail (Mixi) Nedjalkov]],​ [[https://​onlinelibrary.wiley.com/​doi/​full/​10.1002/​pssr.201800111|Electron Interference in a Double‐Dopant Potential Structure]],​ Phys. Stat. Sol. RRL **12**, ​ 1800111 (2018)
 +  * Mauro Ballicchia, [[Josef Weinbub]], [[Mihail (Mixi) Nedjalkov]],​ [[https://​pubs.rsc.org/​en/​content/​articlelanding/​2018/​NR/​C8NR06933F#​!divAbstract|Electron Evolution Around a Repulsive Dopant in a Quantum Wire: Coherence Effects]], Nanoscale **10**, 23037 (2018)
 +  * [[David K. Ferry]] and [[Mihail (Mixi) Nedjalkov]],​ [[http://​iopscience.iop.org/​book/​978-0-7503-1671-2|The Wigner Function in Science and Technology]] (IOP Publishing, 2018)
 +  * [[Mihail (Mixi) Nedjalkov]],​ [[Paul Ellinghaus]],​ [[Josef Weinbub]], Toufik Sadi, Asen Asenov, [[Ivan Dimov]], and [[Siegfried Selberherr]],​ [[https://​www.sciencedirect.com/​science/​article/​pii/​S0010465518300821?​via%3Dihub|Stochastic Analysis of Surface Roughness Models in Quantum Wires]], Comp. Phys. Commun. **228**, 30 (2018)
 +  * [[Josef Weinbub]], [[David K. Ferry]], [[Irena Knezevic]], [[Mihail (Mixi) Nedjalkov]],​ and [[Siegfried Selberherr]],​ [[http://​www.iue.tuwien.ac.at/​pdf/​ib_2017/​hashed_links/​p54PChrcQOaqwqrCY_us.pdf|Book of Abstracts of the 2nd International Wigner Workshop (IW2)]] (TU Wien, 2017)
 +  * [[Paul Ellinghaus]],​ [[Josef Weinbub]], [[Mihail (Mixi) Nedjalkov]] and [[Siegfried Selberherr]],​ [[https://​onlinelibrary.wiley.com/​doi/​abs/​10.1002/​pssr.201700102|Analysis of Lense-Governed Wigner Signed Particle Quantum Dynamics]], Phys. Stat. Sol. RRL **11**, 1700102 (2017)
 +  * [[Ivan Dimov]], [[Mihail (Mixi) Nedjalkov]],​ J.M. Sellier, [[Siegfried Selberherr]],​ [[https://​link.springer.com/​chapter/​10.1007%2F978-3-319-23413-7_97|Neumann Series Analysis of the Wigner Equation Solution]], in: Progress in Industrial Mathematics,​ The European Consortium for Mathematics in Industry **22**, 701 (2016)
 +  * [[Mihail (Mixi) Nedjalkov]],​ [[Josef Weinbub]], [[Paul Ellinghaus]],​ and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​article/​10.1007%2Fs10825-015-0732-y|The Wigner Equation in the Presence of Electromagnetic Potentials]],​ J. Comp. Electron. **14**, 888 (2015)
 +  * [[Josef Weinbub]], [[Paul Ellinghaus]],​ [[Mihail (Mixi) Nedjalkov]],​ [[https://​link.springer.com/​article/​10.1007%2Fs10825-015-0730-0|Domain Decomposition Strategies for the Two-Dimensional Wigner Monte Carlo Method]], J. Comp. Electron. **14**, 922 (2015)
 +  * [[Paul Ellinghaus]],​ [[Josef Weinbub]], [[Mihail (Mixi) Nedjalkov]],​ [[Siegfried Selberherr]],​ and [[Ivan Dimov]], [[https://​link.springer.com/​article/​10.1007%2Fs10825-014-0635-3|Distributed-Memory Parallelization of the Wigner Monte Carlo Method Using Spatial Domain Decomposition]],​ J. Comp. Electron. **14**, 151 (2015)
 +  * J.M. Sellier, [[Mihail (Mixi) Nedjalkov]],​ [[Ivan Dimov]], and [[Siegfried Selberherr]],​ [[https://​www.sciencedirect.com/​science/​article/​abs/​pii/​S0378475414001530?​via%3Dihub|A Comparison of Approaches for the Solution of the Wigner Equation]], Math. Comp. Sim. **107**, 108 (2015)
 +  * [[Ivan Dimov]], [[Mihail (Mixi) Nedjalkov]],​ J.M. Sellier, and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​article/​10.1007%2Fs10825-015-0720-2|Boundary Conditions and the Wigner Equation Solution]], J. Comp. Electron. **14**, 859 (2015)
 +  * [[Paul Ellinghaus]],​ [[Mihail (Mixi) Nedjalkov]],​ and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​chapter/​10.1007%2F978-3-319-15585-2_3|Optimized Particle Regeneration Scheme for the Wigner Monte Carlo Method]], in: Numerical Methods and Applications,​ Lecture Notes in Computer Science **8962**, 27 (2015)
 +  * [[Johann Cervenka]], [[Paul Ellinghaus]],​ [[Mihail (Mixi) Nedjalkov]],​ [[https://​link.springer.com/​chapter/​10.1007%2F978-3-319-15585-2_17|Deterministic Solution of the Discrete Wigner Equation]], in: Numerical Methods and Applications,​ Lecture Notes in Computer Science **8962**, 149 (2015
 +  * [[Johann Cervenka]], [[Paul Ellinghaus]],​ [[Mihail (Mixi) Nedjalkov]],​ Erasmus Langer, [[https://​link.springer.com/​chapter/​10.1007%2F978-3-319-26520-9_29|Optimization of the Deterministic Solution of the Discrete Wigner Equation]], in: large Scale Scientific Computing, Lecture Notes in Computer Science **9374**, 269 (2015)
 +  * J.M. Sellier, S. Amoroso, [[Mihail (Mixi) Nedjalkov]],​ [[Siegfried Selberherr]],​ Asen Asenov, and [[Ivan Dimov]], [[https://​www.sciencedirect.com/​science/​article/​pii/​S0378437113011862?​via%3Dihub|Electron Dynamics in Nanoscale Transistors by Means of Wigner and Boltzmann Approaches]],​ Physica A **398**, 194 (2014)
 +  * J.M. Sellier, [[Mihail (Mixi) Nedjalkov]],​ [[Ivan Dimov]], and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​chapter/​10.1007%2F978-3-662-43880-0_20|The Role of Annihilation in a Wigner Monte Carlo Approach]], in: Large-Scale Scientific Computing, Lecture Notes in Computer Science **8353**, 186 (2014)
 +  * J.M. Sellier, [[Mihail (Mixi) Nedjalkov]],​ [[Ivan Dimov]], and [[Siegfried Selberherr]],​ [[https://​www.degruyter.com/​view/​j/​mcma.2014.20.issue-1/​mcma-2013-0018/​mcma-2013-0018.xml|A Benchmark Study of the Wigner Monte Carlo Method]], Mon. Carl. Meth. Appl. **20**, 43 (2014)
 +  * [[Mihail (Mixi) Nedjalkov]],​ P. Schwaha, [[Siegfried Selberherr]],​ J.M. Sellier, and [[Dragica Vasileska]],​ [[https://​aip.scitation.org/​doi/​10.1063/​1.4802931|Wigner Quasi-Particle Attributes - An Asymptotic Perspective]],​ Appl. Phys. Lett. **102**, 163113 (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)
   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], and Philipp Schwaha, [[https://​link.springer.com/​article/​10.1007%2Fs10825-010-0316-9|Device Modeling in the Wigner Picture]], J. Comp. Electron. **9**, 218 (2010)   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], and Philipp Schwaha, [[https://​link.springer.com/​article/​10.1007%2Fs10825-010-0316-9|Device Modeling in the Wigner Picture]], J. Comp. Electron. **9**, 218 (2010)
   * [[Hans Kosina]], [[Mihail (Mixi) Nedjalkov]],​ and [[Siegfried Selberherr]],​ [[https://​www.degruyter.com/​view/​j/​mcma.2004.10.issue-3-4/​mcma.2004.10.3-4.359/​mcma.2004.10.3-4.359.xml|Solution of the Space-dependent Wigner Equation Using a Particle Model]], Mon. Carl. Meth. Appl. **10**, 359 (2004)   * [[Hans Kosina]], [[Mihail (Mixi) Nedjalkov]],​ and [[Siegfried Selberherr]],​ [[https://​www.degruyter.com/​view/​j/​mcma.2004.10.issue-3-4/​mcma.2004.10.3-4.359/​mcma.2004.10.3-4.359.xml|Solution of the Space-dependent Wigner Equation Using a Particle Model]], Mon. Carl. Meth. Appl. **10**, 359 (2004)
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   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], [[Robert Kosik]], and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​article/​10.1023%2FA%3A1020799224110|Space Dependent Wigner Equation Including Phonon Interaction]],​ J. Comput. Electron. **1**, 27 (2002)   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], [[Robert Kosik]], and [[Siegfried Selberherr]],​ [[https://​link.springer.com/​article/​10.1023%2FA%3A1020799224110|Space Dependent Wigner Equation Including Phonon Interaction]],​ J. Comput. Electron. **1**, 27 (2002)
   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], [[Robert Kosik]], and [[Siegfried Selberherr]],​ [[https://​www.sciencedirect.com/​science/​article/​abs/​pii/​S0167931702006251?​via%3Dihub|A Wigner Equation with Quantum Electron-Phonon Interaction]],​ Microelectron. Engin. **63**, 199 (2002)   * [[Mihail (Mixi) Nedjalkov]],​ [[Hans Kosina]], [[Robert Kosik]], and [[Siegfried Selberherr]],​ [[https://​www.sciencedirect.com/​science/​article/​abs/​pii/​S0167931702006251?​via%3Dihub|A Wigner Equation with Quantum Electron-Phonon Interaction]],​ Microelectron. Engin. **63**, 199 (2002)
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 ===== Affiliation(s) ===== ===== Affiliation(s) =====
  
mihail_mixi_nedjalkov.txt · Last modified: 2019/11/06 11:57 by weinbub