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Mihail Nedjalkov, PhD Phys.,  D.Sc. Math.
Mihail Nedjalkov, PhD Phys., D.Sc. Math.
IICT, BAS and IuE, TU Wien
Verified email at iue.tuwien.ac.at
Title
Cited by
Cited by
Year
Unified particle approach to Wigner-Boltzmann transport in small semiconductor devices
M Nedjalkov, H Kosina, S Selberherr, C Ringhofer, DK Ferry
Physical Review B 70 (11), 115319, 2004
1982004
Modeling thermal effects in nanodevices
K Raleva, D Vasileska, SM Goodnick, M Nedjalkov
IEEE Transactions on Electron Devices 55 (6), 1306-1316, 2008
1542008
Theory of the Monte Carlo method for semiconductor device simulation
H Kosina, M Nedjalkov, S Selberherr
IEEE Transactions on Electron Devices 47 (10), 1898-1908, 2000
992000
An introduction to applied quantum mechanics in the Wigner Monte Carlo formalism
JM Sellier, M Nedjalkov, I Dimov
Physics Reports 577, 1-34, 2015
662015
A Monte Carlo solution of the Wigner transport equation
F Rossi, C Jacoboni, M Nedjalkov
Semiconductor Science and Technology 9 (5S), 934, 1994
621994
The Wigner function in science and technology
DK Ferry, M Nedjalkov
IoP Publishing, 2018
602018
Wigner function approach
M Nedjalkov, D Querlioz, P Dollfus, H Kosina
Nano-Electronic Devices: Semiclassical and Quantum Transport Modeling, 289-358, 2011
572011
Wigner quasi-particle attributes—an asymptotic perspective
M Nedjalkov, P Schwaha, S Selberherr, JM Sellier, D Vasileska
Applied Physics Letters 102 (16), 2013
512013
Wigner transport models of the electron-phonon kinetics in quantum wires
M Nedjalkov, D Vasileska, DK Ferry, C Jacoboni, C Ringhofer, I Dimov, ...
Physical Review B—Condensed Matter and Materials Physics 74 (3), 035311, 2006
512006
A benchmark study of the Wigner Monte Carlo method
JM Sellier, M Nedjalkov, I Dimov, S Selberherr
Monte Carlo Methods and Applications 20 (1), 43-51, 2014
492014
Physical scales in the Wigner–Boltzmann equation
M Nedjalkov, S Selberherr, DK Ferry, D Vasileska, P Dollfus, D Querlioz, ...
Annals of Physics 328, 220-237, 2013
402013
Iteration approach for solving the Boltzmann equation with the Monte Carlo method
M Nedjalkov, P Vitanov
Solid-state electronics 32 (10), 893-896, 1989
401989
Impact of self-heating on the statistical variability in bulk and SOI FinFETs
L Wang, AR Brown, M Nedjalkov, C Alexander, B Cheng, C Millar, ...
IEEE Transactions on Electron Devices 62 (7), 2106-2112, 2015
372015
Convergency of the Monte Carlo algorithm for the solution of the Wigner quantum-transport equation
M Nedjalkov, I Dimov, F Rossi, C Jacoboni
Mathematical and computer modelling 23 (8-9), 159-166, 1996
361996
A Monte Carlo method seamlessly linking quantum and classical transport calculations
H Kosina, M Nedjalkov, S Selberherr
Journal of Computational Electronics 2, 147-151, 2003
342003
The stationary Monte Carlo method for device simulation. I. Theory
H Kosina, M Nedjalkov, S Selberherr
Journal of Applied Physics 93 (6), 3553-3563, 2003
292003
Distributed-memory parallelization of the Wigner Monte Carlo method using spatial domain decomposition
P Ellinghaus, J Weinbub, M Nedjalkov, S Selberherr, I Dimov
Journal of Computational Electronics 14, 151-162, 2015
282015
3D coupled electro-thermal FinFET simulations including the fin shape dependence of the thermal conductivity
L Wang, AR Brown, M Nedjalkov, C Alexander, B Cheng, C Millar, ...
2014 International Conference on Simulation of Semiconductor Processes and …, 2014
282014
Wigner function-based device modeling
H Kosina, M Nedjalkov
Handbook of Theoretical and Computational Nanotechnology 10, 731-763, 2005
282005
A review of quantum transport in field-effect transistors
DK Ferry, J Weinbub, M Nedjalkov, S Selberherr
Semiconductor Science and Technology 37 (4), 043001, 2022
262022
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