Porous material for protection from electromagnetic radiation

Abstract

It is shown that the porous glass crystalline material obtained by a low temperature technology can be used not only for thermal insulation, but also for lining of rooms as protective screens decreasing harmful effect of electromagnetic radiation as well as to establish acoustic chambers and rooms with a low level of electromagnetic background. The material interacts with electromagnetic radiation by the most effective way in a high frequency field (above 100 GHz). At the frequency of 260 GHz the value of the transmission coefficient decreases approximately in a factor times in comparison with foam glass.

Original language	English
Title of host publication	AIP Conference Proceedings
Publisher	American Institute of Physics Inc.
Pages	241-244
Number of pages	4
Volume	1623
ISBN (Print)	9780735412606
DOIs	https://doi.org/10.1063/1.4898927
Publication status	Published - 2014
Event	International Conference on Physical Mesomechanics of Multilevel Systems 2014 - Tomsk, Russian Federation Duration: 3 Sep 2014 → 5 Sep 2014

Other

Other	International Conference on Physical Mesomechanics of Multilevel Systems 2014
Country	Russian Federation
City	Tomsk
Period	3.9.14 → 5.9.14

Keywords

Absorption of electromagnetic energy
Dielectric permittivity spectra
Ecology
Electromagnetic response
Foamglass crystal material

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1063/1.4898927

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Cite this

Kazmina, O., Dushkina, M., Suslyaev, V., & Semukhin, B. (2014). Porous material for protection from electromagnetic radiation. In AIP Conference Proceedings (Vol. 1623, pp. 241-244). American Institute of Physics Inc.. https://doi.org/10.1063/1.4898927

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abstract = "It is shown that the porous glass crystalline material obtained by a low temperature technology can be used not only for thermal insulation, but also for lining of rooms as protective screens decreasing harmful effect of electromagnetic radiation as well as to establish acoustic chambers and rooms with a low level of electromagnetic background. The material interacts with electromagnetic radiation by the most effective way in a high frequency field (above 100 GHz). At the frequency of 260 GHz the value of the transmission coefficient decreases approximately in a factor times in comparison with foam glass.",

keywords = "Absorption of electromagnetic energy, Dielectric permittivity spectra, Ecology, Electromagnetic response, Foamglass crystal material",

author = "Olga Kazmina and Maria Dushkina and Valentin Suslyaev and Boris Semukhin",

year = "2014",

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language = "English",

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volume = "1623",

pages = "241--244",

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AU - Dushkina, Maria

AU - Suslyaev, Valentin

AU - Semukhin, Boris

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N2 - It is shown that the porous glass crystalline material obtained by a low temperature technology can be used not only for thermal insulation, but also for lining of rooms as protective screens decreasing harmful effect of electromagnetic radiation as well as to establish acoustic chambers and rooms with a low level of electromagnetic background. The material interacts with electromagnetic radiation by the most effective way in a high frequency field (above 100 GHz). At the frequency of 260 GHz the value of the transmission coefficient decreases approximately in a factor times in comparison with foam glass.

AB - It is shown that the porous glass crystalline material obtained by a low temperature technology can be used not only for thermal insulation, but also for lining of rooms as protective screens decreasing harmful effect of electromagnetic radiation as well as to establish acoustic chambers and rooms with a low level of electromagnetic background. The material interacts with electromagnetic radiation by the most effective way in a high frequency field (above 100 GHz). At the frequency of 260 GHz the value of the transmission coefficient decreases approximately in a factor times in comparison with foam glass.

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KW - Dielectric permittivity spectra

KW - Ecology

KW - Electromagnetic response

KW - Foamglass crystal material

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