Екип

Координатор на консорциума

Членове на научния колектив

 

д-р Михаил Недялковд-р Михаил Христов Недялков, ст.н.с.II ст.

Организация, контакти:

Институт по паралелна обработка на информацията (ИПОИ)
Българска академия на науките

ул."Академик Георги Бончев", бл. 25-А, гр.София 1113
тел: (02) 979 24 34
факс: (02) 870 72 73

email: nedyalkov@cetrh.org
Членства в научни организации:
  • Italian Physical Society
  • Society for Industrial and Applied Mathematics (SIAM)
  • WSEAS
Специализации и работа в чужбина:
  • Институт по микроелектроника, Технически университет - Виена, Австрия, гостуващ учен, 2008
  • Скопски университет, Македония, MOEL239, гостуващ учен,
    2007-2008
  • Институт по микроелектроника, Технически университет - Виена, Австрия, FWF Project START Y247-N13, гостуващ учен, 2005 - 2007
  • Департамент по електроинж., Щатски университет на Аризона, САЩ, гостуващ учен, 2004 - 2005
  • Институт по микроелектроника, Технически университет - Виена, Австрия, проект към Европейската комисия NANOTCAD IST1999-10828 и проект FWF P-13333-TEC, гостуващ учен, 2003
Основни публикации

In Journals::

  1. Nedjalkov, M., and D. Vasileska. Semi-Discrete 2DWigner-Particle Approach. – Journal of Computational Electronics, 2008, DOI 10.1007/s10825-008-0197-3.
  2. Raleva, K., D. Vasileska, S. Goodnick, M. Nedjalkov. Modeling Thermal Effects in Nanodevices. – IEEE
    Transactions on Electron Devices, 55, 2008, 1306-1316.
  3. Nedjalkov, M., D. Vasileska, I. Dimov, G. Arsov. Mixed Initial-Boundary Value Problem in Particle
    Modeling of Microelectronic Devices. – Monte Carlo Methods and Applications, 13, No. 4, 2007, 299– 331.
  4. Nedjalkov, M., D. Vasileska, E. Atanassov, V. Palankovski. Ultrafast Wigner Transport in QuantumWires. – Journal of Computational Electronics, 6, 2007, 235–238.
  5. Nedjalkov, M., D. Vasileska, D. Ferry, C. Jacoboni, C. Ringhofer, I. Dimov, V. Palankovski. Wigner transport models of the electron-phonon kinetics in quantum wires. – Physical Review B, 74, 2006, 035311–1–035311–18.
  6. Nedjalkov, M., E. Atanassov, H. Kosina, S. Selberherr. Operator-Split Method for Variance Reduction in Stochastic Solutions of the Wigner Equation. – Monte Carlo Methods and Applications, 10, 2004, 461– 468.
  7. Kosina, H., M. Nedjalkov, S. Selberherr. Solution of the Space-dependent Wigner Equation Using a Particle Model. – Monte Carlo Methods and Applications, 10, 2004, 359–368.
  8. Nedjalkov, M., S. Ahmed, D. Vasileska. A Self-Consistent Event Biasing Scheme for Statistical Enhancement. – Journal of Computational Electronics, 3, No. 3-4, 2004, 305–309.
  9. Nedjalkov, M., H. Kosina, S. Selberherr, C. Ringhofer, D. Ferry. Unified Particle Approach to Wigner- Boltzmann Transport in Small Semiconductor Devices. – Physical Review B, 70, 2004, 115319–115335.
  10. Nedjalkov, M., H. Kosina, E. Ungersboeck, S. Selberherr. A Quasi-particle Model of the Electron-Wigner Potential Interaction. – Semicond. Sci. Technol., 19, 2004, S226–S228.
  11. Kosina, H., M. Nedjalkov, S. Selberherr. A Monte Carlo Method Seamlessly Linking Classical and Quantum Transport Calculations. – Journal of Computational Electronics, 2, 2003, 147–151.
  12. Ringhofer, C., M. Nedjalkov, H. Kosina, S. Selberherr. Semi-Classical Approximation of Electron-Phonon Scattering beyond Fermi’s Golden Rule. – SIAM Journal of Applied Mathematics, 64, 2004, 1933–1953.
  13. Smirnov, S., H. Kosina, M. Nedjalkov, S. Selberherr. Monte Carlo Method for Modelling of Small Signal Response Including the Pauli Exclusion Principle. – J. Appl. Phys., 94, 2003, 5791–5799.
  14. Smirnov, S., H. Kosina, M. Nedjalkov, S. Selberherr. Investigation of the Electron Mobility in Strained Si1−xGex at High Ge Composition. – IEICE Trans. Electron., E86-C, No. 3, 2003, 350–356.
  15. Nedjalkov, M., H. Kosina, S. Selberherr. Stochastic Interpretation of the Wigner Transport in Nanostructures. – Microelectronics Journal, 34, 2003, 443–445.
  16. Kosina, H., M. Nedjalkov. Particle Models for Device Simulations. – In: T. Grasser, ed. The Special Issue on Advanced Device Modeling and Simulation (International Journal of High Speed Electronics and Systems). World Scientific Inc., Singapore, 2003, 27 – 69 (invited).
  17. Kosina, H., M. Nedjalkov, S. Selberherr. An Event Bias Technique for Monte Carlo Device Simulation. – Mathematics and Computers in Simulation, 62, No. 3-6, 2003, 367–375.
  18. Nedjalkov, M., H. Kosina, S. Selberherr. Monte Carlo Algorithms for Stationary Device Simulation. – Mathematics and Computers in Simulation, 62, No. 3-6, 2003, 453–461.
  19. Nedjalkov, M., H. Kosina, S. Selberherr. The Stationary Monte Carlo Method for Device Simulation - Part II: Event Biasing and Variance Reduction. – J.Appl.Phys., 93, No. 6, 2003, 3564–3571.
  20. Kosina, H., M. Nedjalkov, S. Selberherr. The Stationary Monte Carlo Method for Device Simulation - Part I: Theory. – J.Appl.Phys., 93, No. 6, 2003, 3553–3563.
  21. Gurov, T., M. Nedjalkov, I. Dimov. Stochastic Approach for Investigation of Ultrafast Phenomena in
    Semiconductors. – Pliska Studia Mathematica Bulgarica, 14, 2003, 45–57.

In Peer Reviewed Proceedings:

  1. Gurov, T., E. Atanasov, M. Nedjalkov, I. Dimov. Modeling of Carrier Transport in Nanowires. – Lecture Notes in Computer Science, 4487. Springer-Verlag, 2007, 739–746.
  2. Atanassov, E., R. Georgieva, T. Gurov, S. Ivanovska, A. Karaivanova, M. Nedjalkov. New Algorithms in the Grid Application SALUTE. – In: Proceeding of the 30th International Convention MIPRO 2007 (conference on Hypermedia and Grid Systems). Studio Hofbauer, Rijeka, Croatia, 2007, 263 p., 217-222. ISBN 978-953-233-032-8 (Award for exceptional outstanding paper).
  3. Nedjalkov, M., D. Vasileska, K. Raleva. Thermal Relaxation of Non-Equilibrium Electrons in Nanowires. – In: Proceedings of VIII Conference ETAI 2007 (paper on CD), 2007, E1–2–1 – E1–2–4. ISBN 978- 9989-2175-3-X.
  4. Nedjalkov, M., H. Kosina, D. Vasileska. WIgner ENSemble Monte Carlo: Challenges of 2D Nano-Device Simulation. – Lecture Notes in Computer Science, 4818. Springer-Verlag, 2008, 139–147. ISBN: 978-80- 86407-12-8.
  5. Vitanov, S., M. Nedjalkov, V. Palankovski. A Monte Carlo Model of Piezoelectric Scattering in GaN. – Lecture Notes in Computer Science, 4310. Springer-Verlag, 2008, 197–204. ISSN: 0302-9743.
  6. Dhar, S., E. Ungersbck, M. Nedjalkov, V. Palankovski. Monte Carlo Simulation of the Electron Mobility in Strained Silicon. – In: Proceedings of the The Fifteenth International Scientific and Applied Science Conference Electronics ET’2006, Conference Book 2. IEEE, 2006, 169–173. ISBN: 954-438-565-7.
  7. Kosina, H., M. Nedjalkov. Review Chapter: Wigner Function Based Device Modeling. – In: M. Rieth and W. Schommers, eds. Handbook of Theoretical and Computational Nanotechnology. American Scientific Publishers, Los Angeles, 2006, 731–763. ISBN: 1-58883-042-X.
  8. Gurov, T., E. Atanassov, M. Nedjalkov, V. Palankovski. Monte Carlo Method for Modeling of Electron Transport in Quantum Wires. – In: Proc. 5th Vienna Symp. on Mathematical Modeling MATHMOD, Vol.2 (FullPapers CD). AGRESIM-Verlag, 2006, 13–1–13–8.
  9. Nedjalkov, M., T. Gurov, H. Kosina, D. Vasileska, V. Palankovski. Femtosecond Evolution of Spatially Inhomogeneous Carrier Excitations: Part I: Kinetic Approach. – Lecture Notes in Computer Science, 3743. Springer-Verlag, 2006, 149–156.
  10. Kosina, H., V. Sverdlov, C. Ringhofer, M. Nedjalkov, S. Selberherr. Quantum Correction to the Semiclassical Electron-Phonon Scattering Operator. – Lecture Notes in Computer Science, 3743. Springer-Verlag, 2006, 594–601.
  11. Nedjalkov, M. Wigner Transport in Presence of Phonons: Particle models of the Electron Kinetics. – In: A. Paoletti, A. D’Amico, and G. Ballestrino, eds. From Nanostructures to Nanosensing Applications, Proc. of the Int. School of Physics ”Enrico Fermi”, 160. IOS Press, 2005, 55–103.
  12. Smirnov, S., H. Kosina, M. Nedjalkov, S. Selberherr. A Zero Field Monte Carlo Algorithm Accounting for the Pauli Exclusion Principle. – Lecture Notes in Computer Science, 2907. Springer-Verlag, 2004, 185–193.
  13. Kosina, H., M. Nedjalkov, S. Selberherr. A Stable Backward Monte Carlo Method for the Solution of the Boltzmann Equation. – Lecture Notes in Computer Science, 2907. Springer-Verlag, 2004, 170–177.
  14. Nedjalkov, M., H. Kosina, S. Selberherr. A Weight Decomposition Approach to the Sign Problem in Wigner Transport Simulations. – Lecture Notes in Computer Science, 2907. Springer-Verlag, 2004, 178– 184.
  15. Kosina, H., G. Klimeck, M. Nedjalkov, S. Selberherr. Comparison of Numerical Quantum Device Models. – In: Proc. Simulation of Semiconductor Processes and Devices, Boston, USA, 2003, 171–174.
  16. Kosina, H., M. Nedjalkov, S. Selberherr. Quantum Monte Carlo Simulation of a Resonant Tunneling Diode Including Phonon Scattering. – In: Nanotech. Computational Publications, San Francisco, 2003, 190–193.