MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE
The transmission model for optical diapason was developed for multilayer coatings consisting of alternating layers of copper and zirconium dioxide deposited on K8 glass substrates. The model is based on the laws of light interference. It was shown that the transmission in the optical range of a 60 n...
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Educational institution «Belarusian State University of Informatics and Radioelectronics»
2019-10-01
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Series: | Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki |
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Online Access: | https://doklady.bsuir.by/jour/article/view/1199 |
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author | A. T. Volochko V. A. Zelenin E. O. Narushko A. V. Skilandz G. V. Markov |
author_facet | A. T. Volochko V. A. Zelenin E. O. Narushko A. V. Skilandz G. V. Markov |
author_sort | A. T. Volochko |
collection | DOAJ |
description | The transmission model for optical diapason was developed for multilayer coatings consisting of alternating layers of copper and zirconium dioxide deposited on K8 glass substrates. The model is based on the laws of light interference. It was shown that the transmission in the optical range of a 60 nm thick Cu layer with a surface resistance ρ = 1 Ohm/sq is 4–5 %, and the transmission of the ZrO2/Cu/ZrO2/Cu/К8 coating obtained by dividing a 60 nm thick copper layer into two sublayers at 30 nm with the application of antireflection layers of ZrO2 on them, at ρ = 1.2 Ohm/sq it reaches 25 %. The thicknesses and the number of layers of the Cu-ZrO2 system were calculated, which ensure a transmission in the wavelength range of 400–700 nm of at least 45 %. The permissible thickness of Cu layers (≥ 20 nm) was determined, below which, due to their insular structure and partial oxidation with the formation of Cu2O, the electrical conductivity of the multilayer coating sharply decreases (ρ ≥ 100 Ohm/sq). |
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institution | Directory Open Access Journal |
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language | Russian |
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publishDate | 2019-10-01 |
publisher | Educational institution «Belarusian State University of Informatics and Radioelectronics» |
record_format | Article |
series | Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki |
spelling | doaj.art-f9b1ec7acedf462e8d9f13b45d552f6c2025-03-05T12:43:09ZrusEducational institution «Belarusian State University of Informatics and Radioelectronics»Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki1729-76482019-10-0106879410.35596/1729-7648-2019-124-6-87-941170MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGEA. T. Volochko0V. A. Zelenin1E. O. Narushko2A. V. Skilandz3G. V. Markov4Institute of Physics and Technology of NAS of BelarusInstitute of Physics and Technology of NAS of BelarusInstitute of Physics and Technology of NAS of BelarusInstitute of Heat and Mass Transfer Named after A.V. Lykov of NAS of BelarusInstitute of Physics and Technology of NAS of BelarusThe transmission model for optical diapason was developed for multilayer coatings consisting of alternating layers of copper and zirconium dioxide deposited on K8 glass substrates. The model is based on the laws of light interference. It was shown that the transmission in the optical range of a 60 nm thick Cu layer with a surface resistance ρ = 1 Ohm/sq is 4–5 %, and the transmission of the ZrO2/Cu/ZrO2/Cu/К8 coating obtained by dividing a 60 nm thick copper layer into two sublayers at 30 nm with the application of antireflection layers of ZrO2 on them, at ρ = 1.2 Ohm/sq it reaches 25 %. The thicknesses and the number of layers of the Cu-ZrO2 system were calculated, which ensure a transmission in the wavelength range of 400–700 nm of at least 45 %. The permissible thickness of Cu layers (≥ 20 nm) was determined, below which, due to their insular structure and partial oxidation with the formation of Cu2O, the electrical conductivity of the multilayer coating sharply decreases (ρ ≥ 100 Ohm/sq).https://doklady.bsuir.by/jour/article/view/1199multilayer coatingslight transmissionisland structureelectrical conductivityshielding of electromagnetic radiation |
spellingShingle | A. T. Volochko V. A. Zelenin E. O. Narushko A. V. Skilandz G. V. Markov MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE Doklady Belorusskogo gosudarstvennogo universiteta informatiki i radioèlektroniki multilayer coatings light transmission island structure electrical conductivity shielding of electromagnetic radiation |
title | MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE |
title_full | MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE |
title_fullStr | MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE |
title_full_unstemmed | MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE |
title_short | MODEL OF TRANSMISSION OF MULTILAYER COATINGS BASED ON THE Cu-ZrO2 SYSTEM IN THE OPTICAL WAVELENGTH RANGE |
title_sort | model of transmission of multilayer coatings based on the cu zro2 system in the optical wavelength range |
topic | multilayer coatings light transmission island structure electrical conductivity shielding of electromagnetic radiation |
url | https://doklady.bsuir.by/jour/article/view/1199 |
work_keys_str_mv | AT atvolochko modeloftransmissionofmultilayercoatingsbasedonthecuzro2systemintheopticalwavelengthrange AT vazelenin modeloftransmissionofmultilayercoatingsbasedonthecuzro2systemintheopticalwavelengthrange AT eonarushko modeloftransmissionofmultilayercoatingsbasedonthecuzro2systemintheopticalwavelengthrange AT avskilandz modeloftransmissionofmultilayercoatingsbasedonthecuzro2systemintheopticalwavelengthrange AT gvmarkov modeloftransmissionofmultilayercoatingsbasedonthecuzro2systemintheopticalwavelengthrange |