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Evaluation of the work function of electrons from a carbon film obtained by electric arc sputtering of graphite in a magnetic field

https://doi.org/10.31143/2221-7789-2026-1-34-37

EDN: MRCHXP

Abstract

The autoemission characteristics of carbon films obtained by electric arc sputtering of graphite in a magnetic field were studied. Based on the analysis of the experimental Fowler-Nordheim curves, it was shown that the work function of electrons from the carbon film was ~ 0.2 eV. The current-voltage characteristics were measured at a distance of 10 μm between the carbon film surface and the anode at room temperature.

About the Authors

Zalim M. Khamdokhov
Institute of Informatics and Regional Management Problems, Kabardino-Balkarian Scientific Center of the Russian Academy of Sciences
Russian Federation


Zaur Ch. Margushev
Institute of Informatics and Regional Management Problems, Kabardino-Balkarian Scientific Center of the Russian Academy of Sciences
Russian Federation


Khamidbi Kh. Losanov
Kabardino-Balkarian State University
Russian Federation


Ruslan Sh. Teshev
Kabardino-Balkarian State University
Russian Federation


References

1. Gulyaev Yu.V. Carbon nanotube structures – a new material for emission electronics // Bulletin of the Russian Academy of Sciences. 2003. Vol. 73. No. 5. Pp. 389–391.

2. Konakova R.V., Okhrimenko O.B., Svetlichny A.M., Ageev O.A., Volkov U.Yu., Kolomiytsev A.S., Zhityaev I.L., Spiridonov O.B. Characterization of Autoemission Cathodes Based on Graphene Films on SiC // Physics of the Solid State. 2015. Vol. 49, No. 9. Pp. 1278–1281.

3. Fursay G.N., Polyakov M.A., Kantonistov A.A., Yafasov A.M., Pavlov B.S., and Bozhevolnov V.B. Auto-electronic and explosive emission from graphene-like structures // ZhTF. 2013. Vol. 83. No. 6. Pp. 71–77.

4. Savelyev S.G., Sinitsyn N.I., Torgashov G.V., Grigoriev Yu.A. Research of film carbon cathodes obtained by pyrolysis of heptane // Materials of the International Conference "Modern Problems of Electronics and Microwave Radiophysics". Saratov, 2001. P. 138.

5. Khamdokhov E.Z., Teshev R.Sh., Khamdokhov Z.M., Khamdokhov A.Z., Kalazhokov Z.Kh., Kalazhokov Kh.Kh. Obtaining Carbon Films by Electro-Arc Graphite Spraying in a Magnetic Field // Surface. X-ray, Synchrotron, and Neutron Research. 2014. No. 12. Pp. 68–73.

6. Khamdokhov Z.M., Margushev Z.Ch., Kalazhokov Z.Kh., Kushchov Kh.B., Kalazhokov Kh.Kh., Teshev R.Sh. On the Phase Composition of Nanoscale Metal – Carbon Films Produced by the Two-Evaporator Method // The Journal of Surface Investigation. Х-ray Synchrotron and Neutron Techniques. 2023. V. 17, N 6. P. 8317–8321.

7. Khamdokhov Z.M., Margushev Z.Ch. Features of the structure of Cu-C composite films obtained by the ion-plasma method // Proceedings of the Moscow Institute of Physics and Technology. 2024. Vol. 16, No. 3. Pp. 127–132.

8. Grigoriev Yu.A., Burtsev A.A., Shalaev P.D., Pimenov V.G. Experimental and computational assessment of the work function of electrons from materials of autoemission cathodes in the analysis of their quality // Bulletin of the Saratov State Technical University. 2009. Vol. 3 (40), No. 1. Pp. 119–124.


Review

For citations:


Khamdokhov Z.M., Margushev Z.Ch., Losanov Kh.Kh., Teshev R.Sh. Evaluation of the work function of electrons from a carbon film obtained by electric arc sputtering of graphite in a magnetic field. Proceedings of the Kabardino-Balkarian State University. 2026;16(1):34-37. (In Russ.) https://doi.org/10.31143/2221-7789-2026-1-34-37. EDN: MRCHXP

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ISSN 2221-7789 (Print)