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Publications Mihail Nedjalkov

209 records

Books and Editorships

4.   Nedjalkov, M., Dimov, I., Selberherr, S. (Eds.). (2021).
Stochastic Approaches to Electron Transport in Micro- And Nanostructures.
Birkhäuser Basel. https://doi.org/10.1007/978-3-030-67917-0 (reposiTUm)

3.   Ferry, D., Nedjalkov, M. (Eds.). (2018).
The Wigner Function in Science and Technology.
IoP Publishing. https://doi.org/10.1088/978-0-7503-1671-2 (reposiTUm)

2.   Weinbub, J., Ferry, D., Knezevic, I., Nedjalkov, M., Selberherr, S. (Eds.). (2017).
Book of Abstracts of the 2nd International Wigner Workshop.
Institute for Microelectronics, TU Wien. (reposiTUm)

1.   Nedjalkov, M., Weinbub, J., Ferry, D. K. (2015).
Introduction to the Special Issue on Wigner Functions.
Journal of Computational Electronics, Vol.14 (pp. 857–858). https://doi.org/10.1007/s10825-015-0745-6 (reposiTUm)

Publications in Scientific Journals

61.   Medina-Bailon, C., Nedialkov, M. H., Georgiev, V., Selberherr, S., Asenov, A. (2023).
Comprehensive Mobility Study of Silicon Nanowire Transistors Using Multi-Subband Models.
Nano Express, 4(2), Article 025005. https://doi.org/10.1088/2632-959X/acdb8a (reposiTUm)

60.   Ferry, D. K., Weinbub, J., Nedjalkov, M., Selberherr, S. (2022).
A Review of Quantum Transport in Field-Effect Transistors.
Semiconductor Science and Technology, 37(4), 043001. https://doi.org/10.1088/1361-6641/ac4405 (reposiTUm)

59.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2022).
Gate-Controlled Electron Quantum Interference Logic.
Nanoscale, 14(37), 13520–13525. https://doi.org/10.1039/d2nr04423d (reposiTUm)

58.   Nedjalkov, M., Ballicchia, M., Kosik, R., Weinbub, J. (2022).
Gauge-Invariant Semidiscrete Wigner Theory.
Physical Review A, 106(052213). https://doi.org/10.1103/physreva.106.052213 (reposiTUm)

57.   Benam, M., Ballicchia, M., Weinbub, J., Selberherr, S., Nedjalkov, M. (2021).
A Computational Approach for Investigating Coulomb Interaction Using Wigner-Poisson Coupling.
Journal of Computational Electronics, 20(2), 775–784. https://doi.org/10.1007/s10825-020-01643-x (reposiTUm)

56.   Cervenka, J., Kosik, R., Nedjalkov, M. (2021).
A Deterministic Wigner Approach for Superposed States.
Journal of Computational Electronics, 20(6), 2104–2110. https://doi.org/10.1007/s10825-021-01801-9 (reposiTUm)

55.   Ferry, D. K., Nedjalkov, M., Weinbub, J., Ballicchia, M., Welland, I., Selberherr, S. (2020).
Complex Systems in Phase Space.
Entropy, 22(10), 1103. https://doi.org/10.3390/e22101103 (reposiTUm)

54.   Ballicchia, M., Ferry, D., Nedjalkov, M., Weinbub, J. (2019).
Investigating Quantum Coherence by Negative Excursions of the Wigner Quasi-Distribution.
Applied Sciences, 9(7), 1344. https://doi.org/10.3390/app9071344 (reposiTUm)

53.   Medina-Bailon, C., Sadi, T., Nedjalkov, M., Carillo-Nunez, H., Lee, J., Badami, O., Georgiev, V., Selberherr, S., Asenov, A. (2019).
Mobility of Circular and Elliptical Si Nanowire Transistors Using a Multi-Subband 1D Formalism.
IEEE Electron Device Letters, 40(10), 1571–1574. https://doi.org/10.1109/led.2019.2934349 (reposiTUm)

52.   Sadi, T., Medina-Bailon, C., Nedjalkov, M., Lee, J., Badami, O., Berrada, S., Carillo-Nunez, H., Georgiev, V., Selberherr, S., Asenov, A. (2019).
Simulation of the Impact of Ionized Impurity Scattering on the Total Mobility in Si Nanowire Transistors.
Materials, 12(1), 124. https://doi.org/10.3390/ma12010124 (reposiTUm)

51.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D. K. (2019).
Wigner Equation for General Electromagnetic Fields: The Weyl-Stratonovich Transform.
Physical Review B, 99(014423). https://doi.org/10.1103/physrevb.99.014423 (reposiTUm)

50.   Ballicchia, M., Weinbub, J., Nedjalkov, M. (2018).
Electron Evolution Around a Repulsive Dopant in a Quantum Wire: Coherence Effects.
Nanoscale, 10(48), 23037–23049. https://doi.org/10.1039/c8nr06933f (reposiTUm)

49.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2018).
Electron Interference in a Double-Dopant Potential Structure.
Physica Status Solidi (RRL) - Rapid Research Letters, 12(7), 1800111. https://doi.org/10.1002/pssr.201800111 (reposiTUm)

48.   Nedjalkov, M., Ellinghaus, P., Weinbub, J., Sadi, T., Asenov, A., Dimov, I., Selberherr, S. (2018).
Stochastic Analysis of Surface Roughness Models in Quantum Wires.
Computer Physics Communications, 228, 30–37. https://doi.org/10.1016/j.cpc.2018.03.010 (reposiTUm)

47.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Analysis of Lense-Governed Wigner Signed Particle Quantum Dynamics.
Physica Status Solidi (RRL) - Rapid Research Letters, 11(7), 1700102-1-1700102–1700105. (reposiTUm)

46.   Sellier, J. M., Nedjalkov, M., Dimov, I., Selberherr, S. (2015).
A Comparison of Approaches for the Solution of the Wigner Equation.
Mathematics and Computers in Simulation, 107, 108–119. https://doi.org/10.1016/j.matcom.2014.06.001 (reposiTUm)

45.   Sellier, J. M., Nedjalkov, M., Dimov, I. (2015).
An Introduction to Applied Quantum Mechanics in the Wigner Monte Carlo Formalism.
Physics Reports, 577, 1–34. https://doi.org/10.1016/j.physrep.2015.03.001 (reposiTUm)

44.   Dimov, I., Nedjalkov, M., Sellier, J.-M., Selberherr, S. (2015).
Boundary Conditions and the Wigner Equation Solution.
Journal of Computational Electronics, 14(4), 859–863. https://doi.org/10.1007/s10825-015-0720-2 (reposiTUm)

43.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S., Dimov, I. (2015).
Distributed-Memory Parallelization of the Wigner Monte Carlo Method Using Spatial Domain Decomposition.
Journal of Computational Electronics, 14(1), 151–162. https://doi.org/10.1007/s10825-014-0635-3 (reposiTUm)

42.   Weinbub, J., Ellinghaus, P., Nedjalkov, M. (2015).
Domain Decomposition Strategies for the Two-Dimensional Wigner Monte Carlo Method.
Journal of Computational Electronics, 14(4), 922–929. https://doi.org/10.1007/s10825-015-0730-0 (reposiTUm)

41.   Wang, L., Brown, A. R., Nedjalkov, M., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2015).
Impact of Self-Heating on the Statistical Variability in Bulk and SOI FinFETs.
IEEE Transactions on Electron Devices, 62(7), 2106–2112. https://doi.org/10.1109/ted.2015.2436351 (reposiTUm)

40.   Nedjalkov, M., Weinbub, J., Ellinghaus, P., Selberherr, S. (2015).
The Wigner Equation in the Presence of Electromagnetic Potentials.
Journal of Computational Electronics, 14(4), 888–893. https://doi.org/10.1007/s10825-015-0732-y (reposiTUm)

39.   Sellier, J. M., Nedjalkov, M., Dimov, I., Selberherr, S. (2014).
A Benchmark Study of the Wigner Monte Carlo Method.
Monte Carlo Methods and Applications, 20(1). https://doi.org/10.1515/mcma-2013-0018 (reposiTUm)

38.   Sellier, J. M., Amoroso, S. M., Nedjalkov, M., Selberherr, S., Asenov, A., Dimov, I. (2014).
Electron Dynamics in Nanoscale Transistors by Means of Wigner and Boltzmann Approaches.
Physica A: Statistical Mechanics and Its Applications, 398, 194–198. https://doi.org/10.1016/j.physa.2013.12.045 (reposiTUm)

37.   Amoroso, S. M., Gerrer, L., Nedjalkov, M., Hussin, R., Alexander, C., Asenov, A. (2014).
Modelling Carriers Mobility in Nano-MOSFETs in the Presence of Discrete Trapped Charges: Accuracy and Issues.
IEEE Transactions on Electron Devices, 61(5), 1292–1298. https://doi.org/10.1109/ted.2014.2312820 (reposiTUm)

36.   Schwaha, P., Querlioz, D., Dollfus, P., Saint-Martin, J., Nedjalkov, M., Selberherr, S. (2013).
Decoherence Effects in the Wigner Function Formalism.
Journal of Computational Electronics, 12(3), 388–396. https://doi.org/10.1007/s10825-013-0480-9 (reposiTUm)

35.   Sellier, J. M., Nedjalkov, M., Dimov, I., Selberherr, S. (2013).
Decoherence and Time Reversibility: The Role of Randomness at Interfaces.
Journal of Applied Physics, 114(17), 174902. https://doi.org/10.1063/1.4828736 (reposiTUm)

34.   Nedjalkov, M., Selberherr, S., Ferry, D. K., Vasileska, D., Dollfus, P., Querlioz, D., Dimov, I., Schwaha, P. (2013).
Physical Scales in the Wigner-Boltzmann Equation.
Annals of Physics, 328, 220–237. https://doi.org/10.1016/j.aop.2012.10.001 (reposiTUm)

33.   Nedjalkov, M., Schwaha, P., Selberherr, S., Sellier, J. M., Vasileska, D. (2013).
Wigner Quasi-Particle Attributes - An Asymptotic Perspective.
Applied Physics Letters, 102(16), 163113. https://doi.org/10.1063/1.4802931 (reposiTUm)

32.   Ortmann, F., Roche, S., Greer, J. C., Huhs, G., Shulthess, T., Deutsch, T., Weinberger, P., Payne, M., Sellier, J. M., Sprekels, J., Weinbub, J., Rupp, K., Nedjalkov, M., Vasileska, D., Alfi nito, E., Reggiani, L., Guerra, D., Ferry, D. K., Saraniti, M., … Macucci, M. (2012).
Multi-Scale Modelling for Devices and Circuits.
E-Nano Newsletter, SPECIAL ISSUE APRIL 2012, 31. (reposiTUm)

31.   Nedjalkov, M., Kosina, H., Schwaha, P. (2010).
Device Modeling in the Wigner Picture.
Journal of Computational Electronics, 9(3–4), 218–223. https://doi.org/10.1007/s10825-010-0316-9 (reposiTUm)

30.   Raleva, K., Vasileska, D., Goodnick, S. M., Nedjalkov, M. (2008).
Modeling Thermal Effects in Nanodevices.
IEEE Transactions on Electron Devices, 55(6), 1306–1316. (reposiTUm)

29.   Nedjalkov, M., Vasileska, D. (2008).
Semi-Discrete 2D Wigner-Particle Approach.
Journal of Computational Electronics, 7(3), 222–225. https://doi.org/10.1007/s10825-008-0197-3 (reposiTUm)

28.   Nedjalkov, M., Vasileska, D., Dimov, I., Arsov, G. (2007).
Mixed Initial-Boundary Value Problem in Particle Modeling of Microelectronic Devices.
Monte Carlo Methods and Applications, 13(4). https://doi.org/10.1515/mcma.2007.017 (reposiTUm)

27.   Nedjalkov, M., Vasileska, D., Atanassov, E., Palankovski, V. (2007).
Ultrafast Wigner Transport in Quantum Wires.
Journal of Computational Electronics, 6(1–3), 235–238. https://doi.org/10.1007/s10825-006-0101-y (reposiTUm)

26.   Nedjalkov, M., Vasileska, D., Ferry, D. K., Jacoboni, C., Ringhofer, C., Dimov, I., Palankovski, V. (2006).
Wigner Transport Models of the Electron-Phonon Kinetics in Quantum Wires.
Physical Review B, 74(035311). https://doi.org/10.1103/physrevb.74.035311 (reposiTUm)

25.  M. Nedjalkov, H. Kosina, E. Ungersböck, S. Selberherr:
"A Quasi-Particle Model of the Electron-Wigner Potential Interaction";
Semiconductor Science and Technology, 19 (2004), 4; 226 - 228. https://doi.org/10.1088/0268-1242/19/4/076

24.   Nedjalkov, M., Ahmed, S., Vasileska, D. (2004).
A Self-Consistent Event Biasing Scheme for Statistical Enhancement.
Journal of Computational Electronics, 3(3–4), 305–309. (reposiTUm)

23.  M. Nedjalkov, E. Atanassov, H. Kosina, S. Selberherr:
"Operator-Split Method for Variance Reduction in Stochastic Solutions for the Wigner Equation";
Monte Carlo Methods and Applications, 10 (2004), 3-4; 461 - 468. https://doi.org/10.1515/mcma.2004.10.3-4.461

22.  Ch. Ringhofer, M. Nedjalkov, H. Kosina, S. Selberherr:
"Semiclassical Approximation of Electron-Phonon Scattering Beyond Fermi's Golden Rule";
SIAM Journal on Applied Mathematics, 64 (2004), 6; 1933 - 1953. https://doi.org/10.1137/S0036139903428914

21.  H. Kosina, M Nedjalkov, S. Selberherr:
"Solution of the Space-dependent Wigner Equation Using a Particle Model";
Monte Carlo Methods and Applications, 10 (2004), 3-4; 359 - 368. https://doi.org/10.1515/mcma.2004.10.3-4.359

20.  M. Nedjalkov, H. Kosina, S. Selberherr, Ch. Ringhofer, D.K. Ferry:
"Unified Particle Approach to Wigner-Boltzmann Transport in Small Semiconductor Devices";
Physical Review B, 70 (2004), 115319; 1 - 16. https://doi.org/10.1103/PhysRevB.70.115319

19.  H. Kosina, M. Nedjalkov, S. Selberherr:
"A Monte Carlo Method Seamlessly Linking Quantum and Classical Transport Calculations";
Journal of Computational Electronics, 2 (2003), 2-4; 147 - 151. https://doi.org/10.1023/B:JCEL.0000011416.93047.69

18.  H. Kosina, M. Nedjalkov, S. Selberherr:
"An Event Bias Technique for Monte Carlo Device Simulation";
Mathematics and Computers in Simulation, 62 (2003), 3-6; 367 - 375. https://doi.org/10.1016/S0378-4754(02)00245-8

17.  M. Nedjalkov, H. Kosina, S. Selberherr:
"Monte Carlo Algorithms for Stationary Device Simulation";
Mathematics and Computers in Simulation, 62 (2003), 3-6; 453 - 461. https://doi.org/10.1016/S0378-4754(02)00246-X

16.  S. Smirnov, H. Kosina, M. Nedjalkov, S. Selberherr:
"Monte Carlo Method for Modeling of Small Signal Response Including the Pauli Exclusion Principle";
Journal of Applied Physics, 94 (2003), 9; 5791 - 5799. https://doi.org/10.1063/1.1616982

15.  H. Kosina, M. Nedjalkov:
"Particle Models for Device Simulation";
International Journal of High Speed Electronics and Systems (invited), 13 (2003), 13; 727 - 769.

14.  M. Nedjalkov, H. Kosina, S. Selberherr:
"Stochastic Interpretation of the Wigner Transport in Nanostructures";
Microelectronics Journal, 34 (2003), 5-8; 443 - 445. https://doi.org/10.1016/S0026-2692(03)00069-7

13.  H. Kosina, M. Nedjalkov, S. Selberherr:
"The Stationary Monte Carlo Method for Device Simulation. I. Theory";
Journal of Applied Physics, 93 (2003), 6; 3553 - 3563. https://doi.org/10.1063/1.1544654

12.  M. Nedjalkov, H. Kosina, S. Selberherr:
"The Stationary Monte Carlo Method for Device Simulation. II. Event Biasing and Variance Estimation";
Journal of Applied Physics, 93 (2003), 6; 3564 - 3571. https://doi.org/10.1063/1.1544655

11.  M. Nedjalkov, H. Kosina, R. Kosik, S. Selberherr:
"A Space Dependent Wigner Equation Including Phonon Interaction";
Journal of Computational Electronics, 1 (2002), 1-2; 27 - 31. https://doi.org/10.1023/A:1020799224110

10.  M. Nedjalkov, H. Kosina, R. Kosik, S. Selberherr:
"A Wigner Equation with Quantum Electron-Phonon Interaction";
Microelectronic Engineering, 63 (2002), 1-3; 199 - 203. https://doi.org/10.1016/S0167-9317(02)00625-1

9.  T.V. Gurov, M. Nedjalkov, P.A. Whitlock, H. Kosina, S. Selberherr:
"Femtosecond Relaxation of Hot Electrons by Phonon Emission in Presence of Electric Field";
Physica B: Condensed Matter, 314 (2002), 1-4; 301 - 304. https://doi.org/10.1016/S0921-4526(01)01417-X

8.  M. Nedjalkov, T. Grasser, H. Kosina, S. Selberherr:
"Transient Model for Terminal Current Noise";
Applied Physics Letters, 80 (2002), 4; 607 - 609. https://doi.org/10.1063/1.1447002

7.  M. Nedjalkov, H. Kosina, S. Selberherr, I. Dimov:
"A Backward Monte Carlo Method for Simulation of the Electron Quantum Kinetics in Semiconductors";
VLSI Design, 13 (2001), 1-4; 405 - 411. https://doi.org/10.1155/2001/54247

6.  H. Kosina, M. Nedjalkov:
"The Monte Carlo Method for Semi-Classical Charge Transport in Semiconductor Devices";
Mathematics and Computers in Simulation, 55 (2001), 93 - 102.

5.  M. Nedjalkov, H. Kosina:
"Variance of the Ensemble Monte Carlo Algorithm for Semiconductor Transport Modeling";
Mathematics and Computers in Simulation, 55 (2001), 1-3; 191 - 198.

4.  H. Kosina, M. Nedjalkov, S. Selberherr:
"A Monte Carlo Method for Small Signal Analysis of the Boltzmann Equation";
Journal of Applied Physics, 87 (2000), 9; 4308 - 4314. https://doi.org/10.1063/1.373070

3.  M. Nedjalkov, H. Kosina, S. Selberherr:
"A Monte-Carlo Method to Analyze the Small Signal Response of the Semiconductor Carriers";
IEICE Transactions on Electronics, E83-C (2000), 8; 1218 - 1223.

2.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Theory of the Monte Carlo Method for Semiconductor Device Simulation";
IEEE Transactions on Electron Devices, 47 (2000), 10; 1898 - 1908. https://doi.org/10.1109/16.870569

1.  M. Nedjalkov, I. Dimov, H. Haug:
"Numerical Studies of the Markovian Limit of the Quantum Kinetics with Phonon Scattering";
Physica Status Solidi B - Basic Solid State Physics, 209 (1998), 1; 109 - 121.

Contributions to Books

20.   Benam, M., Nedjalkov, M., Selberherr, S. (2019).
A Wigner Potential Decomposition in the Signed-Particle Monte Carlo Approach.
In G. Nikolov, N. T. Kolkovska, K. Georgiev (Eds.), Numerical Methods and Applications (pp. 263–272). Springer International Publishing. https://doi.org/10.1007/978-3-030-10692-8_29 (reposiTUm)

19.   Sadi, T., Medina-Bailon, C., Nedjalkov, M., Lee, J., Badami, O., Berrada, S., Carrillo-Nunez, H., Georgiev, V., Selberherr, S., Asenov, A. (2019).
Simulation of the Impact of Ionized Impurity Scattering on the Total Mobility in Si Nanowire Transistors.
In A. García-Loureiro, K. Kalna, N. Seoane (Eds.), Materials (p. 124). MDPI. https://doi.org/10.3390/ma12010124 (reposiTUm)

18.   Lorenz, J., Asenov, A., Baer, E., Barraud, S., Millar, C., Nedjalkov, M. (2018).
Process Variability for Devices at and Beyond the 7nm Node.
In J. A. Martino, J.-P. Raskin, S. Selberherr, H. Ishii, F. Gamiz, B.-Y. Nguyen, A. Yoshino (Eds.), Advanced CMOS-Compatible Semiconductor Devices 18 (pp. 113–124). ECS Transactions. (reposiTUm)

17.   Dimov, I., Nedjalkov, M., Sellier, J. M., Selberherr, S. (2016).
Neumann Series Analysis of the Wigner Equation Solution.
In G. Russo, V. Capasso, G. Nicosia, V. Romano (Eds.), Mathematics in Industry (pp. 701–707). Springer International Publishing. https://doi.org/10.1007/978-3-319-23413-7_97 (reposiTUm)

16.   Cervenka, J., Ellinghaus, P., Nedjalkov, M. (2015).
Deterministic Solution of the Discrete Wigner Equation.
In I. Dimov, S. Fidanova, I. Lirkov (Eds.), Numerical Methods and Applications (pp. 149–156). Springer International Publishing. https://doi.org/10.1007/978-3-319-15585-2_17 (reposiTUm)

15.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Optimized Particle Regeneration Scheme for the Wigner Monte Carlo Method.
In I. Dimov, S. Fidanova, I. Lirkov (Eds.), Numerical Methods and Applications (pp. 27–33). Springer International Publishing. https://doi.org/10.1007/978-3-319-15585-2_3 (reposiTUm)

14.   Ahmed, S., Nedjalkov, M., Vasilesk, D. (2013).
Comparative Study of Various Self-Consistent Event Biasing Schemes for Monte Carlo Simulations of Nanoscale MOSFETs.
In V. Chan (Ed.), Theory and Applications of Monte Carlo Simulations. Intech Open Access Publisher. https://doi.org/10.5772/53113 (reposiTUm)

13.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I. (2012).
Monte Carlo Investigations of Electron Decoherence Due to Phonons.
In K. K. Sabelfeld, I. Dimov (Eds.), Monte Carlo Methods and Applications (pp. 203–211). De Gruyter. (reposiTUm)

12.   Nedjalkov, M., Selberherr, S., Dimov, I. (2011).
Stochastic Algorithm for Solving the Wigner-Boltzmann Correction Equation.
In I. Dimov, S. Dimova, N. T. Kolkovska (Eds.), Numerical Methods and Applications (pp. 95–102). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-18466-6_10 (reposiTUm)

11.   Nedjalkov, M., Querlioz, D., Dollfus, P., Kosina, H. (2011).
Wigner Function Approach.
In D. Vasileska, S. M. Goodnick (Eds.), Nano-Electronic Devices (pp. 289–358). Springer New York. https://doi.org/10.1007/978-1-4419-8840-9_5 (reposiTUm)

10.   Vitanov, S., Nedjalkov, M., Palankovski, V. (2007).
A Monte Carlo Model of Piezoelectric Scattering in GaN.
In T. Boyanov, S. Dimova, K. Georgiev, G. Nikolov (Eds.), Numerical Methods and Applications (pp. 197–204). Springer-Verlag, Berlin-Heidelberg. https://doi.org/10.1007/978-3-540-70942-8_23 (reposiTUm)

9.   Gurov, T., Atanassov, E., Nedjalkov, M., Dimov, I. (2007).
Modeling of Carrier Transport in Nanowires.
In I. Lirkov, S. Margenov, J. Wasniewski (Eds.), Computational Science – ICCS 2007 (pp. 739–746). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-540-72584-8_98 (reposiTUm)

8.   Kosina, H., Nedjalkov, M. (2006).
Wigner Function-Based Device Modeling.
In Handbook of Theoretical and Computational Nanotechnology (pp. 731–763). American Scientific Publishers. (reposiTUm)

7.   Nedjalkov, M. (2005).
Wigner Transport in the Presence of Phonons: Particle Models of Electron Kinetics.
In A. D´Amico, G. Balestrino, A. Paoletti (Eds.), From Nanostructures to Nanosensing Applications (pp. 55–103). IOS Press. (reposiTUm)

6.  H. Kosina, M. Nedjalkov, S. Selberherr:
"A Stable Backward Monte Carlo Method for the Solution of the Boltzmann Equation";
in: "Large-Scale Scientific Computing, Lecture Notes in Computer Science", 2907; I. Lirkov, S. Margenov, J. Wasniewski, P. Yalamov (ed.); Springer Berlin Heidelberg, 2003, ISBN: 3-540-21090-3, 170 - 177. https://doi.org/10.1007/978-3-540-24588-9_18

5.  M. Nedjalkov, H. Kosina, S. Selberherr:
"A Weight Decomposition Approach to the Sign Problem in Wigner Transport Simulations";
in: "Large-Scale Scientific Computing, Lecture Notes in Computer Science", 2907; I. Lirkov, S. Margenov, J. Wasniewski, P. Yalamov (ed.); Springer Berlin Heidelberg, 2003, ISBN: 3-540-21090-3, 178 - 184. https://doi.org/10.1007/978-3-540-24588-9_19

4.  S. Smirnov, H. Kosina, M. Nedjalkov, S. Selberherr:
"A Zero Field Monte Carlo Algorithm Accounting for the Pauli Exclusion Principle";
in: "Large-Scale Scientific Computing, Lecture Notes in Computer Science", 2907; I. Lirkov, S. Margenov, J. Wasniewski, P. Yalamov (ed.); Springer Berlin Heidelberg, 2003, ISBN: 3-540-21090-3, 185 - 193. https://doi.org/10.1007/978-3-540-24588-9_20

3.  H. Kosina, M. Nedjalkov:
"Particle Models for Device Simulation";
in: "Advanced Device Modeling and Simulation", T. Grasser (ed.); World Scientific Publishing Co., Singapore, 2003, (invited), ISBN: 9-812-38607-6, 27 - 69.

2.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Monte Carlo Analysis of the Small-Signal Response of Charge Carriers";
in: "Large-Scale Scientific Computing, Lecture Notes in Computer Science", 2179; S. Margenov, J. Wasniewski, P. Yalamov (ed.); Springer Berlin Heidelberg, 2001, ISBN: 3-540-43043-1, 175 - 182. https://doi.org/10.1007/3-540-45346-6_17

1.  M. Nedjalkov, T.V. Gurov, H. Kosina, P.A. Whitlock:
"Statistical Algorithms for Simulation of Electron Quantum Kinetics in Semiconductors - Part II";
in: "Large-Scale Scientific Computing, Lecture Notes in Computer Science", 2179; S. Margenov, J. Wasniewski, P. Yalamov (ed.); Springer Berlin Heidelberg, 2001, ISBN: 978-3-540-43043-8, 183 - 190. https://doi.org/10.1007/3-540-45346-6_18

Talks and Poster Presentations (with Proceedings-Entry)

114.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Electromagnetic Control of Electron Interference.
In Book of Abstracts of the CECAM Flagship Workshop on Quantum Transport Methods and Algorithms: From Particles to Waves Approaches (p. 15), Zurich, Switzerland. (reposiTUm)

113.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Wigner Dynamics of Electron Quantum Superposition States in a Confined and Opened Quantum Dot.
In 2022 IEEE 22nd International Conference on Nanotechnology (NANO), Palma de Mallorca, Spain. https://doi.org/10.1109/nano54668.2022.9928753 (reposiTUm)

112.   Weinbub, J., Ballicchia, M., Nedjalkov, M., Selberherr, S. (2021).
Electromagnetic Coherent Electron Control.
In 2021 IEEE Latin America Electron Devices Conference (LAEDC), San Jose, Costa Rica. https://doi.org/10.1109/laedc51812.2021.9437949 (reposiTUm)

111.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2021).
Electron Quantum Optics for Quantum Interference Logic Devices.
In WINDS Book of Abstracts (pp. 58–59), Kona. (reposiTUm)

110.   Ballicchia, M., Benam, M., Nedjalkov, M., Selberherr, S., Weinbub, J. (2021).
Modeling Coulomb Interaction With a 'Wigner-Poisson' Coupling Scheme.
In International Wigner Workshop IWW 2021 Book of Abstracts (pp. 64–65), Austria. (reposiTUm)

109.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2020).
Single Electron Control by a Uniform Magnetic Field in a Focusing Double-Well Potential Structure.
In 2020 IEEE 20th International Conference on Nanotechnology (IEEE-NANO), Cork, Ireland. https://doi.org/10.1109/nano47656.2020.9183565 (reposiTUm)

108.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D., Rupp, K. (2019).
A Gauge-Invariant Wigner Equation for General Electromagnetic Fields.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 67–68), Evanston, IL, United States. (reposiTUm)

107.   Weinbub, J., Nedjalkov, M. (2019).
Computational Strategies for Two-Dimensional Wigner Monte Carlo.
In Procedings of the High Performance Computing Conference (HPC) (pp. 55–56), Borovets, Bulgaria. (reposiTUm)

106.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
Effects of Repulsive Dopants on Quantum Transport in a Nanowire.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 115–116), Evanston, IL, United States. (reposiTUm)

105.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
Electron Evolution and Boundary Conditions in the Wigner Signed-Particle Approach.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 24–25), Waikoloa, Hawaii, USA. (reposiTUm)

104.   Weinbub, J., Ballicchia, M., Ferry, D., Nedjalkov, M. (2019).
Electron Interference and Wigner Function Negativity in Dopant Potential Structures.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 14–15), Waikoloa, Hawaii, USA. (reposiTUm)

103.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2019).
Electron Interference in Single- And Double-Dopant Potential Structures.
In Proceedings of the International Conference on Large-Scale Scientific Computations (LSSC) (pp. 103–104), Sozopol, Bulgaria. (reposiTUm)

102.   Manstetten, P., Diamantopoulos, G., Gnam, L., Aguinsky, L., Quell, M., Toifl, A., Scharinger, A., Hössinger, A., Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
High Performance TCAD: From Simulating Fabrication Processes to Wigner Quantum Transport.
In Book of Abstracts of the Workshop on High Performance TCAD (WHPTCAD) (p. 13), Chicago, IL, USA. (reposiTUm)

101.   Ballicchia, M., Ferry, D., Nedjalkov, M., Weinbub, J. (2019).
Linking Wigner Function Negativity to Quantum Coherence in a Nanowire.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 59–60), Evanston, IL, United States. (reposiTUm)

100.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D., Rupp, K. (2019).
Posedness of Stationary Wigner Equation.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 32–33), Waikoloa, Hawaii, USA. (reposiTUm)

99.   Ballicchia, M., Nedjalkov, M., Selberherr, S., Weinbub, J. (2019).
Potentials for Single Electron State Processing.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 111–112), Kona. (reposiTUm)

98.   Benam, M., Nedjalkov, M., Selberherr, S. (2018).
A Wigner Potential Decomposition in the Signed-Particle Monte Carlo Approach.
In Book of Abstracts of the Ninth International Conference on Numerical Methods and Applications (NM&A'18) (pp. 34–35), Borovets, Bulgaria. (reposiTUm)

97.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2018).
Electron Interference in a Double-Dopant Potential Structure.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 52–53), Kona. (reposiTUm)

96.   Medina-Bailón, C., Sadi, T., Nedjalkov, M., Lee, J., Berrada, S., Carillo-Nunez, H., Georgiev, V., Selberherr, S., Asenov, A. (2018).
Impact of the Effective Mass on the Mobility in Si Nanowire Transistors.
In 2018 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Austin, TX, United States. https://doi.org/10.1109/sispad.2018.8551630 (reposiTUm)

95.  J. Lee, C. Medina-Bailón, S. Berrada, H. Carillo-Nunez, T. Sadi, V. Georgiev, M. Nedjalkov, S. Selberherr, A. Asenov:
"Multi-Scale Simulation Study of the Strained Si Nanowire FETs";
Talk: IEEE Nanotechnology Materials and Devices Conference (NMDC), Portland, USA; 2018-10-14 - 2018-10-17; in: "Proceedings of IEEE Nanotechnology Materials and Devices Conference (NMDC)", (2018), ISBN: 978-1-5386-1016-9. https://doi.org/10.1109/NMDC.2018.8605884

94.   Ballicchia, M., Weinbub, J., Dimov, I., Nedjalkov, M. (2018).
Recent Advances of the Wigner Signed-Particle Approach.
In Abstracts Annual Meeting of the Bulgarian Section of SIAM (BGSIAM) (pp. 18–19), Sofia, Bulgaria. (reposiTUm)

93.   Medina-Bailón, C., Sadi, T., Nedjalkov, M., Lee, J., Berrada, S., Carillo-Nunez, H., Georgiev, V., Selberherr, S., Asenov, A. (2018).
Study of the 1D Scattering Mechanisms' Impact on the Mobility in Si Nanowire Transistors.
In Book of Abstracts of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) (pp. 15–16), Bologna, Italy. (reposiTUm)

92.   Ballicchia, M., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Classical and Quantum Electron Evolution With a Repulsive Dopant.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 105–106), Kona. (reposiTUm)

91.   Sadi, T., Towie, E., Nedjalkov, M., Asenov, A., Selberherr, S. (2017).
Monte Carlo Particles in Quantum Wires: Effects of the Confinement.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (pp. 89–90), Sozopol, Bulgaria. (reposiTUm)

90.   Ellinghaus, P., Nedjalkov, M., Weinbub, J., Selberherr, S. (2017).
Wigner Analysis of Surface Roughness in Quantum Wires.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 40–41), Waikoloa, Hawaii, USA. (reposiTUm)

89.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Wigner Modelling of Surface Roughness in Quantum Wires.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2017) (pp. 171–172), Windermere, United Kingdom. (reposiTUm)

88.   Weinbub, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2017).
Wigner-Signed Particles Study of Double Dopant Quantum Effects.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 50–51), Waikoloa, Hawaii, USA. (reposiTUm)

87.   Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
Modeling Carrier Transport in Nanoscale Semiconductor Devices.
In Abstracts of the BIT's 6th Annual World Congress of Nano Science, Technology-2016 (p. 377), Xi'an, China. (reposiTUm)

86.   Sadi, T., Towie, E., Nedjalkov, M., Riddet, C., Alexander, C., Wang, L., Georgiev, V., Brown, A., Millar, C., Asenov, A. (2016).
One-Dimensional Multi-Subband Monte Carlo Simulation of Charge Transport in Si Nanowire Transistors.
In 2016 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Nuremberg, Germany. https://doi.org/10.1109/sispad.2016.7605139 (reposiTUm)

85.   Nedjalkov, M., Weinbub, J., Dimov, I., Selberherr, S. (2016).
Signed Particle Interpretation for Wigner-Quantum Electron Evolution.
In Abstracts Third National Congress of Physical Sciences (p. 1), Sofia, Bulgaria. (reposiTUm)

84.   Wang, L., Sadi, T., Brown, A., Nedjalkov, M., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2016).
Simulation Analysis of the Electro-Thermal Performance of SOI FinFETs.
In Book of Abstracts of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) (pp. 34–35), Bologna, Italy. (reposiTUm)

83.   Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
The Description of Carrier Transport for Quantum Systems.
In Book of Abstracts of the Energy Materials Nanotechnology Meeting on Quantum (pp. 41–42), Phuket, Thailand. (reposiTUm)

82.   Ellinghaus, P., Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
Wigner Modelling of Quantum Wires.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (p. 2), Kona. (reposiTUm)

81.   Wang, L., Brown, A., Nedjalkov, M., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2015).
3D Electro-Thermal Simulations of Bulk FinFETs With Statistical Variations.
In 2015 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Washington, DC, United States. https://doi.org/10.1109/sispad.2015.7292271 (reposiTUm)

80.   Wang, L., Sadi, T., Nedjalkov, M., Brown, A., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2015).
An Advanced Electro-Thermal Simulation Methodology for Nanoscale Device.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 155–156), Urbana-Champaign, IL, USA. (reposiTUm)

79.   Wang, L., Sadi, T., Nedjalkov, M., Brown, A., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2015).
An Advanced Electro-Thermal Simulation Methodology for Nanoscale Device.
In 2015 International Workshop on Computational Electronics (IWCE). https://doi.org/10.1109/iwce.2015.7301989 (reposiTUm)

78.   Weinbub, J., Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Comparison of Slab and Block Decomposition Strategies for the Two-Dimensional Wigner Monte Carlo Method.
In Abstracts International Symposium on Advanced Nanodevices and Nanotechnology (ISANN), Kaanapali. (reposiTUm)

77.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Improved Particle Annihilation for Wigner Monte Carlo Simulations on a High-Resolution Mesh.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 93–94), Urbana-Champaign, IL, USA. (reposiTUm)

76.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Improved Drive-Current Into Nanoscaled Channels Using Electrostatic Lenses.
In 2015 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Washington, DC, United States. https://doi.org/10.1109/sispad.2015.7292249 (reposiTUm)

75.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Memory-Efficient Particle Annihilation Algorithm for Wigner Monte Carlo Simulations.
In 2015 International Workshop on Computational Electronics (IWCE), Urbana-Champaign, IL, USA. https://doi.org/10.1109/iwce.2015.7301955 (reposiTUm)

74.   Cervenka, J., Ellinghaus, P., Nedjalkov, M., Langer, E. (2015).
Optimization of the Deterministic Solution of the Discrete Wigner Equation.
In Large-Scale Scientific Computing 10th International Conference, LSSC 2015 (pp. 269–276), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-319-26520-9_29 (reposiTUm)

73.   Nedjalkov, M., Ellinghaus, P., Selberherr, S. (2015).
The Aharanov-Bohm Effect From a Phase Space Perspective.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (pp. 59–60), Sozopol, Bulgaria. (reposiTUm)

72.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
The Influence of Electrostatic Lenses on Wave Packet Dynamics.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (pp. 39–40), Sozopol, Bulgaria. (reposiTUm)

71.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2015).
ViennaWD - Applications.
In Booklet of the International Wigner Workshop (IW2) (p. 9), Waikoloa, Hawaii, USA. (reposiTUm)

70.   Weinbub, J., Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
ViennaWD - Status and Outlook.
In Booklet of the International Wigner Workshop (IW2) (p. 8), Waikoloa, Hawaii, USA. (reposiTUm)

69.   Wang, L., Brown, A., Nedjalkov, M., Alexander, C., Cheng, B., Millar, C., Asenov, A. (2014).
3D Coupled Electro-Thermal FinFET Simulations Including the Fin Shape Dependence of the Thermal Conductivity.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931615 (reposiTUm)

68.   Cervenka, J., Ellinghaus, P., Nedjalkov, M. (2014).
Deterministic Solution of the Discrete Wigner Equation.
In Eighth International Conference on Numerical Methods and Applications (p. 36), Borovets, Bulgaria. (reposiTUm)

67.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2014).
Efficient Calculation of the Two-Dimensional Wigner Potential.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 19–20), Urbana-Champaign, IL, USA. (reposiTUm)

66.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2014).
Implications of the Coherence Length on the Discrete Wigner Potential.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 155–156), Urbana-Champaign, IL, USA. (reposiTUm)

65.   Dimov, I., Nedjalkov, M., Sellier, J., Selberherr, S. (2014).
Neumann Series Analysis of the Wigner Equation Solution.
In Abstracts of The 18th European Conference on Mathematics for Industry (p. 459), Taormina, Italy. (reposiTUm)

64.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2014).
Optimized Particle Regeneration Scheme for the Wigner Monte Carlo Method.
In Eighth International Conference on Numerical Methods and Applications (p. 19), Borovets, Bulgaria. (reposiTUm)

63.   Schwaha, P., Nedjalkov, M., Selberherr, S., Sellier, J., Dimov, I., Georgieva, R. (2014).
Stochastic Formulation of Newton’s Acceleration.
In Large-Scale Scientific Computing: 9th International Conference, LSSC 2013 (pp. 178–185), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-662-43880-0_19 (reposiTUm)

62.   Sellier, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2014).
The Multi-Dimensional Transient Challenge: The Wigner Particle Approach.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 119–120), Urbana-Champaign, IL, USA. (reposiTUm)

61.   Sellier, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2014).
The Role of Annihilation in a Wigner Monte Carlo Approach.
In Large-Scale Scientific Computing: 9th International Conference, LSSC 2013 (pp. 186–193), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-662-43880-0_20 (reposiTUm)

60.   Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2014).
The Wigner Monte Carlo Method for Accurate Semiconductor Device Simulation.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931576 (reposiTUm)

59.   Amoroso, S., Gerrer, L., Asenov, A., Sellier, J., Dimov, I., Nedjalkov, M., Selberherr, S. (2013).
Quantum Insights in Gate Oxide Charge-Trapping Dynamics in Nanoscale MOSFETs.
In 2013 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Glasgow, United Kingdom. https://doi.org/10.1109/sispad.2013.6650565 (reposiTUm)

58.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I., Georgieva, R. (2013).
Stochastic Alternative to Newton's Acceleration.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (pp. 77–78), Sozopol, Bulgaria. (reposiTUm)

57.   Sellier, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2013).
The Role of Annihilation in a Wigner Monte Carlo Approach.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (p. 78), Sozopol, Bulgaria. (reposiTUm)

56.   Schwaha, P., Sellier, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2013).
The Ultimate Equivalence Between Coherent Quantum and Classical Regimes.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 152–153), Urbana-Champaign, IL, USA. (reposiTUm)

55.   Sellier, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2013).
Two-Dimensional Transient Wigner Particle Model.
In 2013 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Glasgow, United Kingdom. https://doi.org/10.1109/sispad.2013.6650660 (reposiTUm)

54.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I. (2012).
Particle-Grid Techniques for Semiclassical and Quantum Transport Simulations.
In 2012 15th International Workshop on Computational Electronics. https://doi.org/10.1109/iwce.2012.6242860 (reposiTUm)

53.   Nedjalkov, M., Schwaha, P., Selberherr, S., Ferry, D. (2012).
Phonon Decoherence in Wigner-Boltzmann Transport.
In Proceedings of International Winterschool on New Developments in Solid State Physics (pp. 61–62), Mauterndorf, Austria, Austria. (reposiTUm)

52.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I. (2012).
Phonon-Induced Decoherence in Electron Evolution.
In Large-Scale Scientific Computing: 8th International Conference, LSSC 2011 (pp. 472–479), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-642-29843-1_53 (reposiTUm)

51.   Nedjalkov, M., Schwaha, P., Selberherr, S., Ferry, D., Vasileska, D., Dollfus, P., Querlioz, D. (2012).
Role of the Physical Scales on the Transport Regime.
In 2012 15th International Workshop on Computational Electronics. https://doi.org/10.1109/iwce.2012.6242848 (reposiTUm)

50.   Filipovic, L., Nedjalkov, M., Selberherr, S. (2011).
A Monte Carlo Simulator for Non-Contact Atomic Force Microscopy.
In Abstracts Intl. Conf. on Large-Scale Scientific Computations (pp. 42–43), Sozopol, Bulgaria. (reposiTUm)

49.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I. (2011).
Monte Carlo Investigations of Electron Decoherence Due to Phonons.
In Abstracts IMACS Seminar on Monte Carlo Methods (MCM) (p. 48), Reading. (reposiTUm)

48.   Schwaha, P., Nedjalkov, M., Selberherr, S., Dimov, I. (2011).
Phonon-Induced Decoherence in Electron Evolution.
In Abstracts Intl. Conf. on Large-Scale Scientific Computations (pp. 74–75), Sozopol, Bulgaria. (reposiTUm)

47.   Nedjalkov, M., Schwaha, P., Baumgartner, O., Selberherr, S. (2010).
Particle Model of the Scattering-Induced Wigner Function Correction.
In Large-Scale Scientific Computing: 7th International Conference, LSSC 2009 (pp. 411–418), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-642-12535-5_48 (reposiTUm)

46.   Nedjalkov, M., Selberherr, S., Dimov, I. (2010).
Stochastic Algorithm for Solving the Wigner-Boltzmann Correction Equation.
In Abstracts of the International Conference on Numerical Methods and Applications (NM&A) (p. B-43), Borovets. (reposiTUm)

45.   Schwaha, P., Baumgartner, O., Heinzl, R., Nedjalkov, M., Selberherr, S., Dimov, I. (2009).
Classical Approximation of the Scattering Induced Wigner Correction Equation.
In 2009 13th International Workshop on Computational Electronics, Urbana-Champaign, IL, USA. https://doi.org/10.1109/iwce.2009.5091092 (reposiTUm)

44.   Schwaha, P., Cervenka, J., Nedjalkov, M., Gurov, T., Arsov, G., Misev, A., Zoric, A., Ilic, S. (2009).
Computational Electronics on GRID: A Mixed Mode Carrier Transport Model.
In AIP Conference Proceedings, Sozopol (Bulgaria). https://doi.org/10.1063/1.3265331 (reposiTUm)

43.   Nedjalkov, M., Schwaha, P., Baumgartner, O., Selberherr, S. (2009).
Particle Model of the Scattering-Induced Wigner Function Correction.
In Abstracts of the International Conference on Large-Scale Scientific Computations (LSSC) (p. 79), Sozopol, Bulgaria. (reposiTUm)

42.   Schwaha, P., Heinzl, R., Nedjalkov, M. (2009).
The Forced Evolution of Implementations: Using a Monte Carlo Algorithm as Example.
In Proceedings of the 8th workshop on Parallel/High-Performance, Genova. (reposiTUm)

41.  O. Baumgartner, P. Schwaha, M. Karner, M. Nedjalkov, S. Selberherr:
"Coupling of Non-Equilibrium Green's Function and Wigner Function Approaches";
Talk: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Hakone, Japan; 2008-09-09 - 2008-09-11; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2008), ISBN: 978-1-4244-1753-7; 345 - 348. https://doi.org/10.1109/SISPAD.2008.4648308

40.   Nedjalkov, M., Kosina, H., Vasileska, D. (2008).
Wigner Ensemble Monte Carlo: Challenges of 2D Nano-Device Simulation.
In Large-Scale Scientific Computing: 6th International Conference, LSSC 2007 (pp. 139–147), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-540-78827-0_14 (reposiTUm)

39.   Karaivanova, A., Atanassov, E., Gurov, T., Nedjalkov, M., Vasileska, D., Raleva, K. (2007).
Electron-Phonon Interaction in Nanowires: A Monte Carlo Study of the Effect of the Field.
In Proceedings of the Seminar on Monte Carlo Methods (MCM) (p. 23), Reading. (reposiTUm)

38.   Nedjalkov, M., Vasileska, D. (2007).
Semi-Discrete 2D Wigner-Particle Approach.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 122–123), Urbana-Champaign, IL, USA. (reposiTUm)

37.   Nedjalkov, M., Vasileska, D., Raleva, K. (2007).
Thermal Relaxation of Non-Equilibrium Electrons in Nanowires.
In 8th Conference of the Society for Electronics, Telecommunications, Automatics, and Informatics, Ohrid, Macedonia. (reposiTUm)

36.   Nedjalkov, M., Kosina, H., Vasileska, D. (2007).
Wigner Ensemble Monte Carlo: Challanges of 2D Nano-Device Simulation.
In Proceedings of the International Conference on Large-Scale Scientific Computing (LSSC) (pp. B-41–B-42), Sozopol, Bulgaria. (reposiTUm)

35.   Vitanov, S., Nedjalkov, M., Palankovski, V. (2006).
A Monte Carlo Model of Piezoelectric Scattering in GaN.
In Sixth International Conference on Numerical Methods and Applications Abstracts (p. B-75), Borovets. (reposiTUm)

34.   Nedjalkov, M., Gurov, T., Kosina, H., Vasileska, D., Palankovski, V. (2006).
Femtosecond Evolution of Spatially Inhomogeneous Carrier Excitations Part I: Kinetic Approach.
In Large-Scale Scientific Computing: 5th International Conference, LSSC 2005 (pp. 149–156), Sozopol, Bulgaria. https://doi.org/10.1007/11666806_15 (reposiTUm)

33.   Ferrari, G., Jacoboni, C., Nedjalkov, M., Asenov, A. (2006).
Introducing Energy Broadening in Semiclassical Monte Carlo Simulations.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 17–18), Urbana-Champaign, IL, USA. (reposiTUm)

32.   Gurov, T., Atanassov, E., Nedjalkov, M., Palankovski, V. (2006).
Monte Carlo Method for Modeling of Electron Transport in Quantum Wires.
In 5th Mathmod Vienna Proceedings (pp. 13-1–13-8), Wien, Austria. (reposiTUm)

31.   Dhar, S., Ungersböck, S., Nedjalkov, M., Palankovski, V. (2006).
Monte Carlo Simulation of the Electron Mobility in Strained Silicon.
In The Fifteenth International Scientific and Applied Science Conference Electronics ET'2006 Proceedings of the Conference Book 2 (pp. 169–173), Sozopol. (reposiTUm)

30.   Sverdlov, V., Kosina, H., Ringhofer, C., Nedjalkov, M., Selberherr, S. (2006).
Quantum Correction to the Semiclassical Electron-Phonon Scattering Operator.
In Large-Scale Scientific Computing: 5th International Conference, LSSC 2005 (pp. 594–601), Sozopol, Bulgaria. https://doi.org/10.1007/11666806_68 (reposiTUm)

29.  M. Nedjalkov, D. Vasileska, E. Atanassov, V. Palankovski:
"Ultrafast Wigner Transport in Quantum Wires";
Poster: International Workshop on Computational Electronics (IWCE), Vienna, Austria; 2006-05-25 - 2006-05-27; in: "Book of Abstracts of the International Workshop on Computational Electronics (IWCE)", (2006), ISBN: 3-901578-16-1; 285 - 286.

28.   Nedjalkov, M., Gurov, T., Kosina, H., Vasileska, D., Palankovski, V. (2005).
Femtosecond Evolution of Spatially Inhomogeneous Carrier Excitations: Part I: Kinetic Approach.
In Abstracts of the 5th International Conference on Large-Scale Scientific Computations (p. 46), Sozopol, Bulgaria. (reposiTUm)

27.   Kosina, H., Sverdlov, V., Ringhofer, C., Nedjalkov, M., Selberherr, S. (2005).
Quantum Correction to the Semiclassical Electron-Phonon Scattering Operator.
In Abstracts of the 5th International Conference on Large-Scale Scientific Computations (pp. 36–37), Sozopol, Bulgaria. (reposiTUm)

26.   Kosina, H., Nedjalkov, M., Selberherr, S. (2003).
A Monte Carlo Method Seamlessly Linking Quantum and Classical Transport Calculations.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 35–36), Urbana-Champaign, IL, USA. (reposiTUm)

25.  M. Nedjalkov, H. Kosina, S. Selberherr:
"A Quasi-Particle Model of the Electron - Wigner Potential Interaction";
Poster: International Conference on Nonequilibrium Carrier Dynamics in Semiconductors (HCIS), Modena; 2003-07-28 - 2003-08-01; in: "Proceedings HCIS-13", (2003), Th 5-1.

24.  H. Kosina, M. Nedjalkov, S. Selberherr:
"A Stable Backward Monte Carlo Method for the Solution of the Boltzmann Equation";
Talk: International Conference on Large-Scale Scientific Computations (LSSC), Sozopol; 2003-06-04 - 2003-06-08; in: "Abstracts of the 4th International Conference on Large-Scale Scientific Computations", (2003), 24.

23.  M. Nedjalkov, H. Kosina, S. Selberherr:
"A Weight Decomposition Approach to the Sign Problem in Wigner Transport Simulations";
Talk: International Conference on Large-Scale Scientific Computations (LSSC), Sozopol, Bulgaria; 2003-06-04 - 2003-06-08; in: "Abstracts of the 4th International Conference on Large-Scale Scientific Computations", (2003), 35 - 36.

22.  S. Smirnov, H. Kosina, M. Nedjalkov, S. Selberherr:
"A Zero Field Monte Carlo Algorithm Accounting for the Pauli Exclusion Principle";
Talk: International Conference on Large-Scale Scientific Computations (LSSC), Sozopol, Bulgaria; 2003-06-04 - 2003-06-08; in: "Abstracts of the 4th International Conference on Large-Scale Scientific Computations", (2003), 40 - 41.

21.  H. Kosina, G. Klimeck, M. Nedjalkov, S. Selberherr:
"Comparison of Numerical Quantum Device Models";
Talk: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Cambridge, MA, USA; 2003-09-03 - 2003-09-05; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2003), ISBN: 0-7803-7826-1; 171 - 174. https://doi.org/10.1109/SISPAD.2003.1233664

20.  T.V. Gurov, M. Nedjalkov, H. Kosina:
"Novel Monte Carlo Algorithms for Ultrafast Transport Phenomena in Semiconductors";
Talk: Seminar on Monte Carlo Methods (MCM), Berlin; 2003-09-15 - 2003-09-19; in: "Book of Abstracts MCM-2003", (2003), 10.

19.  M. Nedjalkov, E. Atanassov, H. Kosina, S. Selberherr:
"Operator-Split Method for Variance Reduction in Stochastic Solutions of the Wigner Equation";
Talk: Seminar on Monte Carlo Methods (MCM), Berlin; 2003-09-15 - 2003-09-19; in: "IVth IMACS Seminar on Monte Carlo Methods", (2003), 6.

18.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Quantum Monte Carlo Simulation of a Resonant Tunneling Diode Including Phonon Scattering";
Talk: International Conference on Modeling and Simulation of Microsystems (MSM), San Francisco; 2003-02-23 - 2003-02-27; in: "Technical Proceedings of the 2003 Nanotechnology Conference and Trade Show", (2003), ISBN: 0-9728422-1-7; 190 - 193.

17.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Solution of the Space-Dependent Wigner Equation Using a Particle Model";
Talk: Seminar on Monte Carlo Methods (MCM), Berlin; 2003-09-15 - 2003-09-19; in: "IVth IMACS Seminar on Monte Carlo Methods", (2003), 6.

16.  H. Kosina, M. Nedjalkov, S. Selberherr:
"A Particle Model for Wigner Transport through Tunneling Structures";
Talk: International Conference on Nanoelectronics and Electromagnetic Compatibility, Skiathos; 2002-09-25 - 2002-09-28; in: "Advances in Simulation, Systems Theory, and Systems Engineering", WSEAS Press, (2002), ISBN: 960-8052-70-x; 136 - 139.

15.  M. Nedjalkov, H. Kosina, S. Selberherr:
"Stochastic Interpretation of the Wigner Transport in Nanostructures";
Talk: International Conference on Low Dimensional Structures and Devices, Fortaleza-Ceara; 2002-12-08 - 2002-12-13; in: "Fourth International Conference on Low Dimensional Structures and Devices", (2002), 5.

14.  M. Nedjalkov, R. Kosik, H. Kosina, S. Selberherr:
"Wigner Transport through Tunneling Structures - Scattering Interpretation of the Potential Operator";
Poster: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Kobe, Japan; 2002-09-04 - 2002-09-06; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2002), ISBN: 4-89114-027-5; 187 - 190. https://doi.org/10.1109/SISPAD.2002.1034548

13.  H. Kosina, R. Kosik, M. Nedjalkov:
"A Hierarchy of Kinetic Equations for Quantum Device Simulation";
Talk: Conference on Applied Mathematics in our Changing World, Berlin (invited); 2001-09-02 - 2001-09-06; in: "Proceedings First SIAM-EMS Conference on Applied Mathematics in our Changing World", (2001), 24.

12.   Nedjalkov, M., Kosina, H., Kosik, R., Selberherr, S. (2001).
A Space Dependent Wigner Equation Including Phonon Interaction.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (p. 4), Urbana-Champaign, IL, USA. (reposiTUm)

11.  M. Nedjalkov, R. Kosik, H. Kosina, S. Selberherr:
"A Wigner Equation for the Nanometer and Femtosecond Transport Regime";
Talk: IEEE Conference on Nanotechnology (NANO), Maui; 2001-10-28 - 2001-10-30; in: "Proceedings of the IEEE Conference on Nanotechnology (NANO)", (2001), ISBN: 0-7803-7215-8; 277 - 281. https://doi.org/10.1109/NANO.2001.966433

10.  H. Kosina, M. Nedjalkov, S. Selberherr:
"An Event Bias Technique for Monte Carlo Device Simulation";
Talk: Seminar on Monte Carlo Methods (MCM), Salzburg; 2001-09-10 - 2001-09-14; in: "Program and Abstracts 3rd IMACS Seminar on Monte Carlo Methods", (2001), 141 - 143.

9.  M. Nedjalkov, T. Grasser, H. Kosina, S. Selberherr:
"Boundary Condition Models for Terminal Current Fluctuations";
Talk: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Athens, Greece; 2001-09-05 - 2001-09-07; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2001), ISBN: 3-211-83708-6; 152 - 155. https://doi.org/10.1007/978-3-7091-6244-6_34

8.  T.V. Gurov, M. Nedjalkov, P.A. Whitlock, H. Kosina, S. Selberherr:
"Femtosecond Relaxation of Hot Electrons by Phonon Emission in Presence of Electric Field";
Poster: International Conference on Nonequilibrium Carrier Dynamics in Semiconductors (HCIS), Santa Fe; 2001-08-27 - 2001-08-31; in: "Proceedings 12th International Conference on Nonequilibrium Carrier Dynamics", (2001), 27.

7.  M. Nedjalkov, H. Kosina, S. Selberherr:
"Monte Carlo Algorithms for Stationary Device Simulation";
Talk: Seminar on Monte Carlo Methods (MCM), Salzburg; 2001-09-10 - 2001-09-14; in: "Program and Abstracts 3rd IMACS Seminar on Monte Carlo Methods", (2001), 58 - 59.

6.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Monte Carlo Analysis of the Small-Signal Response of Charge Carriers";
Talk: International Conference on Large-Scale Scientific Computations (LSSC), Sozopol; 2001-06-06 - 2001-06-10; in: "Abstracts of the 3rd International Conference on Large-Scale Scientific Computations", (2001), A-23.

5.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Variance Reduction in Monte Carlo Device Simulation by Means of Event Biasing";
Talk: International Conference on Modeling and Simulation of Microsystems (MSM), Hilton Head Island; 2001-03-19 - 2001-03-21; in: "Technical Proceedings of the Fourth International Conference on Modeling and Simulation of Microsystems", (2001), ISBN: 0-9708275-0-4; 11 - 14.

4.  H. Kosina, M. Nedjalkov, S. Selberherr:
"Variance and Covariance Estimation in Stationary Monte Carlo Device Simulation";
Talk: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Athens, Greece; 2001-09-05 - 2001-09-07; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (2001), ISBN: 3-211-83708-6; 140 - 143. https://doi.org/10.1007/978-3-7091-6244-6_31

3.  M. Nedjalkov, H. Kosina, S. Selberherr, I. Dimov:
"A Backward Monte Carlo Method for Simulation of the Electron Quantum Kinetics in Semiconductors";
Poster: International Workshop on Computational Electronics (IWCE), Glasgow, UK; 2000-05-22 - 2000-05-25; in: "Book of Abstracts of the International Workshop on Computational Electronics (IWCE)", (2000), ISBN: 0-85261-704-6; 144 - 145. https://doi.org/10.1109/IWCE.2000.869966

2.  M. Nedjalkov, H. Kosina, S. Selberherr:
"Monte-Carlo Method for Direct Computation of the Small Signal Kinetic Coefficients";
Poster: International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Kyoto, Japan; 1999-09-06 - 1999-09-08; in: "Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)", (1999), ISBN: 4-930813-98-0; 155 - 158. https://doi.org/10.1109/SISPAD.1999.799284

1.  M. Nedjalkov, H. Kosina:
"Variance of the Ensemble Monte Carlo Algorithm for Semiconductor Transport Modeling";
Talk: Seminar on Monte Carlo Methods (MCM), Varna; 1999-06-07 - 1999-06-11; in: "Abstracts IMACS Seminar on Monte Carlo Methods", (1999), 43.

Talks and Poster Presentations (without Proceedings-Entry)

6.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Monte Carlo Approach for Solving Integral Equations: From Classical-Boltzmann to Quantum-Wigner Particles.
Workshop Monte Carlo Simulation: Beyond Moore’s Law, 2022 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Granada, Spain. (reposiTUm)

5.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2022).
Quantum Transport in Phase Space: Introduction and Applications.
Summer School on Methods and Models of Kinetic Theory, Pesaro, Italy. (reposiTUm)

4.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2021).
Single Electron Control for Quantum Interference Devices.
Summer School on Methods and Models of Kinetic Theory - Winter Prelude, Porto Ercole, Italy. (reposiTUm)

3.   Nedjalkov, M., Ellinghaus, P., Weinbub, J., Selberherr, S., Sadi, T., Asenov, A., Wang, L., Amoroso, S. M., Towie, E. (2016).
Physical Models for Variation-Aware Device Simulation.
Workshop on Variability-Aware Design Technology Co-Optimization, Nuremberg, Germany, EU. (reposiTUm)

2.   Nedjalkov, M., Weinbub, J., Ellinghaus, P., Selberherr, S. (2016).
Wigner Signed Particles - An Intuitive Alternative of Particle-Wave Duality.
SEMODAY Meeting, Florence, Italy, EU. (reposiTUm)

1.   Kosina, H., Nedjalkov, M. (2003).
The Wigner Equation for Quantum Device Modeling.
Workshop on Quantum and Many-Body Effects in Nanoscale Devices, Arizona State University, Austria. (reposiTUm)

Doctor's Theses (authored and supervised)

1.   Ellinghaus, P. (2016).
Two-Dimensional Wigner Monte Carlo Simulation for Time-Resolved Quantum Transport With Scattering
 Technische Universität Wien. https://doi.org/10.34726/hss.2016.35764 (reposiTUm)

Diploma and Master Theses (authored and supervised)

1.  V. Sverdlov, H. Kosina, Ch. Ringhofer, M Nedjalkov, S. Selberherr:
"Beyond the Golden Rule in Electron-Phonon Scattering: an Advanced Monte Carlo Algorithm";
Talk: DFG Workshop on Multiscale Problems in Quantum Mechanics and Averaging Techniques, Garching; 2004-11-04 - 2004-11-05.

Scientific Reports

2.   Nedjalkov, M. (2013).
Verification and Validation of the Coupled HCI, NBTI Model for HV Devices.
(reposiTUm)

1.   Dragosits, K., Harlander, C., Kosik, R., Kosina, H., Nedjalkov, M., Selberherr, S. (2000).
VISTA Status Report June 2000.
(reposiTUm)