Abstract
Review of the papers on study of superconducting (T{sub c}) and electrophysical properties of high-dispersion beryllium condensates permits to conslude that superconducting layers are in metastable fine-crystalline modification stabilized by low sized (3 nm). Amorphization and availability of impurities suppress superconductivity. Such notion permits to explain all contradictory data on superconducting, electron and structural study of high-dispersion beryllium condensates. 82 refs.; 22 figs.; 3 tabs.
Citation Formats
Semenenko, E E, and Tutov, V I.
Superconductivity of high-dispersion beryllium condensates; Sverkhprovodimost` vysokodispersnykh kondensatov berilliya.
Ukraine: N. p.,
1990.
Web.
Semenenko, E E, & Tutov, V I.
Superconductivity of high-dispersion beryllium condensates; Sverkhprovodimost` vysokodispersnykh kondensatov berilliya.
Ukraine.
Semenenko, E E, and Tutov, V I.
1990.
"Superconductivity of high-dispersion beryllium condensates; Sverkhprovodimost` vysokodispersnykh kondensatov berilliya."
Ukraine.
@misc{etde_10110147,
title = {Superconductivity of high-dispersion beryllium condensates; Sverkhprovodimost` vysokodispersnykh kondensatov berilliya}
author = {Semenenko, E E, and Tutov, V I}
abstractNote = {Review of the papers on study of superconducting (T{sub c}) and electrophysical properties of high-dispersion beryllium condensates permits to conslude that superconducting layers are in metastable fine-crystalline modification stabilized by low sized (3 nm). Amorphization and availability of impurities suppress superconductivity. Such notion permits to explain all contradictory data on superconducting, electron and structural study of high-dispersion beryllium condensates. 82 refs.; 22 figs.; 3 tabs.}
place = {Ukraine}
year = {1990}
month = {Dec}
}
title = {Superconductivity of high-dispersion beryllium condensates; Sverkhprovodimost` vysokodispersnykh kondensatov berilliya}
author = {Semenenko, E E, and Tutov, V I}
abstractNote = {Review of the papers on study of superconducting (T{sub c}) and electrophysical properties of high-dispersion beryllium condensates permits to conslude that superconducting layers are in metastable fine-crystalline modification stabilized by low sized (3 nm). Amorphization and availability of impurities suppress superconductivity. Such notion permits to explain all contradictory data on superconducting, electron and structural study of high-dispersion beryllium condensates. 82 refs.; 22 figs.; 3 tabs.}
place = {Ukraine}
year = {1990}
month = {Dec}
}