Abstract
The researches on the detection of the cold fusion products have been conducting the direct and altering current through the 0.1M KOD + 0.9M D{sub 2}O electrolyte, using the palladium, platinum and titanium electrodes. For the neutron registering the battery has been used of ten He-3 counters of the type SNM-18 of the 4{pi}-geometry with the efficiency to the thermal neutrons equal to 6% and with the proper background of 0.1 p/s. The tritium was registered using the scintillation installation RGS-05 and the mass spectrometer, the electrodes and the electrolyte having been analysed on the tritium content before and after the experiment. During the measurements the neutron yield was not observed, but the detection has been made of the tritium and another substance, having the mass of a.u.m., and the quantity of which surpassed the natural content. 2 refs., 1 fig.
Citation Formats
Grigor`ev, Yu V, Lisichkin, Yu V, Novikov, A G, Prokhorov, S S, Shcherbinin, P P, and Yadrovskij, E L.
Measuring neutrons and tritium yield in cold fusion reactions; Izmerenie vykhoda nejtronov i tritiya v reaktsiyakh kholodnogo yadernogo sinteza.
Russian Federation: N. p.,
1991.
Web.
Grigor`ev, Yu V, Lisichkin, Yu V, Novikov, A G, Prokhorov, S S, Shcherbinin, P P, & Yadrovskij, E L.
Measuring neutrons and tritium yield in cold fusion reactions; Izmerenie vykhoda nejtronov i tritiya v reaktsiyakh kholodnogo yadernogo sinteza.
Russian Federation.
Grigor`ev, Yu V, Lisichkin, Yu V, Novikov, A G, Prokhorov, S S, Shcherbinin, P P, and Yadrovskij, E L.
1991.
"Measuring neutrons and tritium yield in cold fusion reactions; Izmerenie vykhoda nejtronov i tritiya v reaktsiyakh kholodnogo yadernogo sinteza."
Russian Federation.
@misc{etde_10130886,
title = {Measuring neutrons and tritium yield in cold fusion reactions; Izmerenie vykhoda nejtronov i tritiya v reaktsiyakh kholodnogo yadernogo sinteza}
author = {Grigor`ev, Yu V, Lisichkin, Yu V, Novikov, A G, Prokhorov, S S, Shcherbinin, P P, and Yadrovskij, E L}
abstractNote = {The researches on the detection of the cold fusion products have been conducting the direct and altering current through the 0.1M KOD + 0.9M D{sub 2}O electrolyte, using the palladium, platinum and titanium electrodes. For the neutron registering the battery has been used of ten He-3 counters of the type SNM-18 of the 4{pi}-geometry with the efficiency to the thermal neutrons equal to 6% and with the proper background of 0.1 p/s. The tritium was registered using the scintillation installation RGS-05 and the mass spectrometer, the electrodes and the electrolyte having been analysed on the tritium content before and after the experiment. During the measurements the neutron yield was not observed, but the detection has been made of the tritium and another substance, having the mass of a.u.m., and the quantity of which surpassed the natural content. 2 refs., 1 fig.}
place = {Russian Federation}
year = {1991}
month = {Dec}
}
title = {Measuring neutrons and tritium yield in cold fusion reactions; Izmerenie vykhoda nejtronov i tritiya v reaktsiyakh kholodnogo yadernogo sinteza}
author = {Grigor`ev, Yu V, Lisichkin, Yu V, Novikov, A G, Prokhorov, S S, Shcherbinin, P P, and Yadrovskij, E L}
abstractNote = {The researches on the detection of the cold fusion products have been conducting the direct and altering current through the 0.1M KOD + 0.9M D{sub 2}O electrolyte, using the palladium, platinum and titanium electrodes. For the neutron registering the battery has been used of ten He-3 counters of the type SNM-18 of the 4{pi}-geometry with the efficiency to the thermal neutrons equal to 6% and with the proper background of 0.1 p/s. The tritium was registered using the scintillation installation RGS-05 and the mass spectrometer, the electrodes and the electrolyte having been analysed on the tritium content before and after the experiment. During the measurements the neutron yield was not observed, but the detection has been made of the tritium and another substance, having the mass of a.u.m., and the quantity of which surpassed the natural content. 2 refs., 1 fig.}
place = {Russian Federation}
year = {1991}
month = {Dec}
}