Abstract
Experiments on saturation with deuterium by ion implantation of targets of Pd and Ti are conducted and emission of neutrons and charged particles from irradiated targets is investigated. Targets are irradiated with 25 keV energy D{sub 2}{sup +} ions at T{sub irr} {approx_equal}100 K up to the saturation doses. Saturation doses for Pd and Ti make up (3,4)x10{sup 18} and {approx} 8x10{sup 18} D{sup +}/cm{sup 2} respectively. An increase of neutron detector counting rate under the cooling of targets saturated with deuterium from {approx} 100 to 78K is detected after cessation of irraadiation and under the heating of samples within 78-1300K temperature interval. In this temperature interval two maxima on the curve of ND counting rate dependence on the temperature are recorded, neutron emission temperature dependences correlate with deuterium thermodesorption curves. The maximum intensity of a hypothetic neutron source makes up {approx} 10{sup 2} neutrxs{sup -1} per a 4{pi} body angle. {sup 3}He(0.86 MeV), T(1.01 MeV) and p(3.02 MeV) charged particle emission is recorded under the same conditions as for neutrons. The charged particle radiation intensity is more than by an order lower than that of neutrons. 14 refs.; 17 figs.
Citation Formats
Zelenskij, V F, Rybalko, V F, and Morozov, A N.
Experiments on cold nuclear fusion in Pd and Ti saturated with deuterium by ion implantation method; Ehksperimenty po kholodnomu yadernomu sintezu v Pd i Ti, nasyshchennykh dejteriem metodom ionnoj implantatsii.
Ukraine: N. p.,
1989.
Web.
Zelenskij, V F, Rybalko, V F, & Morozov, A N.
Experiments on cold nuclear fusion in Pd and Ti saturated with deuterium by ion implantation method; Ehksperimenty po kholodnomu yadernomu sintezu v Pd i Ti, nasyshchennykh dejteriem metodom ionnoj implantatsii.
Ukraine.
Zelenskij, V F, Rybalko, V F, and Morozov, A N.
1989.
"Experiments on cold nuclear fusion in Pd and Ti saturated with deuterium by ion implantation method; Ehksperimenty po kholodnomu yadernomu sintezu v Pd i Ti, nasyshchennykh dejteriem metodom ionnoj implantatsii."
Ukraine.
@misc{etde_10105022,
title = {Experiments on cold nuclear fusion in Pd and Ti saturated with deuterium by ion implantation method; Ehksperimenty po kholodnomu yadernomu sintezu v Pd i Ti, nasyshchennykh dejteriem metodom ionnoj implantatsii}
author = {Zelenskij, V F, Rybalko, V F, and Morozov, A N}
abstractNote = {Experiments on saturation with deuterium by ion implantation of targets of Pd and Ti are conducted and emission of neutrons and charged particles from irradiated targets is investigated. Targets are irradiated with 25 keV energy D{sub 2}{sup +} ions at T{sub irr} {approx_equal}100 K up to the saturation doses. Saturation doses for Pd and Ti make up (3,4)x10{sup 18} and {approx} 8x10{sup 18} D{sup +}/cm{sup 2} respectively. An increase of neutron detector counting rate under the cooling of targets saturated with deuterium from {approx} 100 to 78K is detected after cessation of irraadiation and under the heating of samples within 78-1300K temperature interval. In this temperature interval two maxima on the curve of ND counting rate dependence on the temperature are recorded, neutron emission temperature dependences correlate with deuterium thermodesorption curves. The maximum intensity of a hypothetic neutron source makes up {approx} 10{sup 2} neutrxs{sup -1} per a 4{pi} body angle. {sup 3}He(0.86 MeV), T(1.01 MeV) and p(3.02 MeV) charged particle emission is recorded under the same conditions as for neutrons. The charged particle radiation intensity is more than by an order lower than that of neutrons. 14 refs.; 17 figs.}
place = {Ukraine}
year = {1989}
month = {Dec}
}
title = {Experiments on cold nuclear fusion in Pd and Ti saturated with deuterium by ion implantation method; Ehksperimenty po kholodnomu yadernomu sintezu v Pd i Ti, nasyshchennykh dejteriem metodom ionnoj implantatsii}
author = {Zelenskij, V F, Rybalko, V F, and Morozov, A N}
abstractNote = {Experiments on saturation with deuterium by ion implantation of targets of Pd and Ti are conducted and emission of neutrons and charged particles from irradiated targets is investigated. Targets are irradiated with 25 keV energy D{sub 2}{sup +} ions at T{sub irr} {approx_equal}100 K up to the saturation doses. Saturation doses for Pd and Ti make up (3,4)x10{sup 18} and {approx} 8x10{sup 18} D{sup +}/cm{sup 2} respectively. An increase of neutron detector counting rate under the cooling of targets saturated with deuterium from {approx} 100 to 78K is detected after cessation of irraadiation and under the heating of samples within 78-1300K temperature interval. In this temperature interval two maxima on the curve of ND counting rate dependence on the temperature are recorded, neutron emission temperature dependences correlate with deuterium thermodesorption curves. The maximum intensity of a hypothetic neutron source makes up {approx} 10{sup 2} neutrxs{sup -1} per a 4{pi} body angle. {sup 3}He(0.86 MeV), T(1.01 MeV) and p(3.02 MeV) charged particle emission is recorded under the same conditions as for neutrons. The charged particle radiation intensity is more than by an order lower than that of neutrons. 14 refs.; 17 figs.}
place = {Ukraine}
year = {1989}
month = {Dec}
}