Geodesic
To modeling of electron tunneling from ultrathin blade cathode
Matematičeskoe modelirovanie, Tome 24 (2012) no. 12, pp. 13-22 Cet article a éte moissonné depuis la source Math-Net.Ru

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We suggest an alytical model for a potential barrier near the tip of an ultrathin edge field emitter for modeling of electron tunneling transport. The model is shown to describe adequately the barrier as compared to conventional approach in field emission treatment.
Mots-clés : tunnel transfer, conformal transformation
Keywords: potential barrier, the transfer matrix method, edge field nanoemitter. 
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     author = {V. A. Fedirko and D. A. Zenyuk and S. V. Polyakov},
     title = {To modeling of electron tunneling from ultrathin blade cathode},
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V. A. Fedirko; D. A. Zenyuk; S. V. Polyakov. To modeling of electron tunneling from ultrathin blade cathode. Matematičeskoe modelirovanie, Tome 24 (2012) no. 12, pp. 13-22. http://geodesic.mathdoc.fr/item/MM_2012_24_12_a2/

[2] H. Yamaguchi, K. Murakami, G. Eda et al., “Field emission from atomically thin edges of reduced graphene oxide”, ACS Nano, 5 (2011), 4945 | DOI

[3] Z.-S. Wu, S. Pei, W. Ren et al., “Field emission of single-layer graphene films prepared by electrophoretic deposition”, Advanced Materials, 21 (2009), 1756 | DOI

[4] V. A. Fedirko, V. V. Guziy, “An analytical model for the electric field of a wedge field emitter”, Technical Digest of the 19th International Vacuum Nanoelectronics Conference (2006, Guilin, China), IEEE, 2006, 247 | DOI

[5] M. A. Lavrentev, B. V. Shabat, Metody teorii funktsii kompleksnogo peremennogo, Nauka, M., 1973 | MR

[6] L. D. Landau, E. M. Lifshits, Elektrodinamika sploshnykh sred, FM, M., 1959

[7] L. D. Landau, E. M. Lifshits, Kvantovaya mekhanika (nerelyativistskaya teoriya), FM, M., 2004

[8] M. Abramovits, I. Stigan, Spravochnik po spetsialnym funktsiyam, FM, M., 1979

[9] V. A. Fedirko, S. V. Polyakov, D. A. Zenyuk, “Matrichnyi metod dlya modelirovaniya tunnelnogo perenosa”, Matematicheskoe modelirovanie, 22:5 (2010), 3–14 | Zbl

[10] A. K. Geim, K. S. Novoselov, “The rise of graphene”, Nature Materials, 6 (2007), 183–191 | DOI