Author:
Nedjalkov M.,Ahmed S.,Vasileska D.
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering,Modeling and Simulation,Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials
Reference5 articles.
1. C. Wordelman, T. Kwan, and C. Snell, “Comparison of statistical enhancement methods for Monte Carlo semiconductor simulation,” IEEE Trans.Computer-Aided Design, 17(12), 1230–1235 (1998).
2. L. Rota, C. Jacoboni, and P. Poli, “Weighted ensemble Monte Carlo,” Solid-State Electron., 32(12), 1417–1421 (1989).
3. H. Kosina, M. Nedjalkov, and S. Selberherr, “The stationary Monte Carlo method for device simulation - Part I and Part II,” J. Appl. Phys., 93(6), 3553–3571 (2003).
4. C. Jacoboni, “A new approach to Monte Carlo simulation,” in PRIEDM, IEEE Electron Devices Society, (1989) p. 469.
5. R. Chau, B. Boyanov, B. Doyle, M. Doczy, S. Datta, S. Hareland, B. Jin, J. Kavalieros, and M. Metz, “Silicon nano-transistors for logic applications,” Physica E, 1 (2003).
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