Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films

Abstract

The effect of a high-frequency nanosecond volume discharge forming in an inhomogeneous electrical field at atmospheric pressure on the CdHgTe (CMT) epitaxial films is studied. The measurement of the electrophysical parameters of the CMT specimens upon irradiation shows that that the action of pulses of nanosecond volume discharge leads to changes in the electrophysical properties of CMT epitaxial films due to formation of a near-surface high-conductivity layer of the n-type conduction. The preliminary results show that it is possible to use such actions in the development of technologies for the controlled change of the properties of CMT narrow-band solid solutions and production of structures heterogeneous with respect to conduction.

Original language	English
Article number	012082
Journal	Journal of Physics: Conference Series
Volume	830
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/830/1/012082
Publication status	Published - 4 May 2017
Event	5th International Congress on Energy Fluxes and Radiation Effects 2016, EFRE 2016 - Tomsk, Russian Federation Duration: 2 Oct 2016 → 7 Oct 2016

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1088/1742-6596/830/1/012082

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Grigoryev, D. V., Voitsekhovskii, A. V., Korotaev, A. D., Lyapunov, D., Lozovoy, K. A., Tarasenko, V., Shulepov, M., Erofeev, M., Ripenko, V., Dvoretskii, S., & Mikhailov, N. N. (2017). Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films. Journal of Physics: Conference Series, 830(1), [012082]. https://doi.org/10.1088/1742-6596/830/1/012082

Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films. / Grigoryev, D. V.; Voitsekhovskii, A. V.; Korotaev, A. D.; Lyapunov, D.; Lozovoy, K. A.; Tarasenko, V.; Shulepov, Mikhail; Erofeev, M.; Ripenko, Vasilii; Dvoretskii, S.; Mikhailov, N. N.

In: Journal of Physics: Conference Series, Vol. 830, No. 1, 012082, 04.05.2017.

Research output: Contribution to journal › Article › peer-review

Grigoryev, DV, Voitsekhovskii, AV, Korotaev, AD, Lyapunov, D, Lozovoy, KA, Tarasenko, V, Shulepov, M, Erofeev, M, Ripenko, V, Dvoretskii, S & Mikhailov, NN 2017, 'Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films', Journal of Physics: Conference Series, vol. 830, no. 1, 012082. https://doi.org/10.1088/1742-6596/830/1/012082

Grigoryev, D. V. ; Voitsekhovskii, A. V. ; Korotaev, A. D. ; Lyapunov, D. ; Lozovoy, K. A. ; Tarasenko, V. ; Shulepov, Mikhail ; Erofeev, M. ; Ripenko, Vasilii ; Dvoretskii, S. ; Mikhailov, N. N. / Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films. In: Journal of Physics: Conference Series. 2017 ; Vol. 830, No. 1.

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title = "Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films",

abstract = "The effect of a high-frequency nanosecond volume discharge forming in an inhomogeneous electrical field at atmospheric pressure on the CdHgTe (CMT) epitaxial films is studied. The measurement of the electrophysical parameters of the CMT specimens upon irradiation shows that that the action of pulses of nanosecond volume discharge leads to changes in the electrophysical properties of CMT epitaxial films due to formation of a near-surface high-conductivity layer of the n-type conduction. The preliminary results show that it is possible to use such actions in the development of technologies for the controlled change of the properties of CMT narrow-band solid solutions and production of structures heterogeneous with respect to conduction.",

author = "Grigoryev, {D. V.} and Voitsekhovskii, {A. V.} and Korotaev, {A. D.} and D. Lyapunov and Lozovoy, {K. A.} and V. Tarasenko and Mikhail Shulepov and M. Erofeev and Vasilii Ripenko and S. Dvoretskii and Mikhailov, {N. N.}",

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T1 - Influence of a high-frequency pulsed nanosecond diffusion discharge in the nitrogen atmosphere on the electrical characteristics of a CdHgTe epitaxial films

AU - Grigoryev, D. V.

AU - Voitsekhovskii, A. V.

AU - Korotaev, A. D.

AU - Lyapunov, D.

AU - Lozovoy, K. A.

AU - Tarasenko, V.

AU - Shulepov, Mikhail

AU - Erofeev, M.

AU - Ripenko, Vasilii

AU - Dvoretskii, S.

AU - Mikhailov, N. N.

PY - 2017/5/4

Y1 - 2017/5/4

N2 - The effect of a high-frequency nanosecond volume discharge forming in an inhomogeneous electrical field at atmospheric pressure on the CdHgTe (CMT) epitaxial films is studied. The measurement of the electrophysical parameters of the CMT specimens upon irradiation shows that that the action of pulses of nanosecond volume discharge leads to changes in the electrophysical properties of CMT epitaxial films due to formation of a near-surface high-conductivity layer of the n-type conduction. The preliminary results show that it is possible to use such actions in the development of technologies for the controlled change of the properties of CMT narrow-band solid solutions and production of structures heterogeneous with respect to conduction.

AB - The effect of a high-frequency nanosecond volume discharge forming in an inhomogeneous electrical field at atmospheric pressure on the CdHgTe (CMT) epitaxial films is studied. The measurement of the electrophysical parameters of the CMT specimens upon irradiation shows that that the action of pulses of nanosecond volume discharge leads to changes in the electrophysical properties of CMT epitaxial films due to formation of a near-surface high-conductivity layer of the n-type conduction. The preliminary results show that it is possible to use such actions in the development of technologies for the controlled change of the properties of CMT narrow-band solid solutions and production of structures heterogeneous with respect to conduction.

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