REVIEW OF METHODS FOR INVESTIGATION OF ELECTRICAL PARAMETERS OF SEMICONDUCTOR MATERIALS

Main Article Content

N. R. Abdulkhalikova
U. R. Rustamov

Abstract

The paper presents a variety of modern trends and prospects for methods for measuring the electrical parameters of a solid body. The demand for the work is due to the fact that the development of research methods can make a further contribution to the progress of alternative energy, contributing to the expansion of the range of semiconductor materials with new properties. General information on bridge and non-contact methods for studying electrical parameters is given. A forecast of the development of microwave and magnetic induction methods for studying the electrical parameters of semiconductor and other promising materials is shown. The significant progress achieved in recent years in the development of these research methods is shown. The work is of interest to researchers involved in the synthesis of new materials for the development of alternative energy.

Article Details

How to Cite
N. R. Abdulkhalikova, & U. R. Rustamov. (2023). REVIEW OF METHODS FOR INVESTIGATION OF ELECTRICAL PARAMETERS OF SEMICONDUCTOR MATERIALS. Galaxy International Interdisciplinary Research Journal, 11(1), 204–211. Retrieved from https://internationaljournals.co.in/index.php/giirj/article/view/3437
Section
Articles

References

Danny E P Vanpoucke. Modeling 1d structures on semiconductor surfaces: synergy of theory and experiment. Journal of Physics: Condensed Matter, 26(13):133001, 2014.

Svistova T.V. Methods for the study of materials and structures of electronics // Voronezh: "Voronezh State Technical University", 2013. 225 p.

Usanov D.A., Skripal A.V., Feklistov V.B., Vening S.B. Microwave measurements of semiconductors and dielectrics. // Saratov, 2010. - 91 p.: ill. (http://solid.sgu.ru/rus/microwave2010.pdf)

https://www.freepatent.ru/patents/2457473

N. Kabanov, A. Saletsky, A. Klavsyuk. Atomic structure of Ir nanowires on Ge(001). // 31st European Conference on Surface Science (ECOSS-31), Barcelona 2015, Book of Abstracts ∙

A.I. Stetsun, L.A. Dvorina. The main features of photostimulated ion transport in heterojunctions based on mixed ion-electron (hole) conductors and the model of a thin-film ion accelerator (hole) conductors // Physics and technology of semiconductors, 2011, volume 45, no. 10

A.A. Kornilovich. Study of the Shubnikov-de Haas effect in bulk semiconductors and two-dimensional systems by non-contact methods // Avtometry, 2002, vol. 38, no. 4, p. 103-114.

Golovanov O.A., Makeeva G.S., Varenitsa V.V., Gorelov R.A. Calculation of the efficiency of graphene conductivity control by the action of an electric field in the terahertz frequency range // Physics of Wave Processes and Radio Engineering Systems. 2015. V.18, No. 2. S. 27-32