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Статьи И.Б. Савватимовой по процессам LENR в тлеющем разряде
Синтезфакт1
Синтезфакт2
Синтезфакт3И. Б. Савватимова
НИИ НПО «Луч», Подольск, Московской обл. Железнодорожная, 24АННОТАЦИЯ
Обсуждаются проблемы воспроизводимости экспериментов в тлеющем разряде и электролизе, возможность оценки вклада ядерных и неядерных процессов в изменение изотопного и элементного состава облучаемого материала.
Приводятся результаты измерения тока заряженных частиц после выключения разряда. Для различных материалов и конструкций катода и условий эксперимента величина тока изменяется от 10-6А с см2 поверхности в первые минуты до 10-13 А. Продолжительность тока эмиссии составляла 30-100 минут зависела от условий эксперимента.
Изучение треков на рентгеновских пленках показало существование нескольких серий необычных объектов протяженность до нескольких миллиметров, в том числе объектов вращения типа двухзаходных спиралей.NEUTRINO–DINEUTRON REACTIONS (LOW-ENERGY NUCLEAR REACTIONS INDUCED BY D2 GAS
PERMEATION THROUGH PD COMPLEXES. Y. IWAMURA EFFECT)
Статья
V. MUROMTSEV AND V. PLATONOV
State Scientific Centre of Russian Federation Karpov Institute of Physical Chemistry, 10,
Vorontsovo Pole Street, 103064 Moscow, Russia
I. SAVVATIMOVA
Federal State Unitarian Enterprise Scientific Research Institute “Luch”,
142100, Podolsk, Zhelesnodorozhnaya Street, 24, Moscow region, Russia
Anomalous elemental changes have been observed on the Pd complexes after D2
gas permeation. This effect—effect Y. Iwamura—belongs to a new category of
nuclear reactions. The effect of Y. Iwamura can stimulate development of physics of
electromagnetic interaction neutrino including physics of relic neutrino and physics
of the dineutrons. It is possible to suggest that low-energy neutrino and even
relic neutrino can initiate effect of transmutation in special cases. The suggested
hypothesis application about new class ν− nuclear reaction existence can be useful
for the problems: alternative energetic, radioactive isotopes reducing and rare
isotopes production.CREATION OF MORE LIGHT ELEMENTS IN TUNGSTEN IRRADIATED BY LOW-ENERGY DEUTERIUM IONS.
IRINA SAVVATIMOVA
Federal State Unitary Enterprise Research Institute “Luch”
E-mail:U10492@dialup.podolsk.ru
The analysis of tungsten and tantalum foils after deuterium discharge with the thermoionization mass-spectrometry method is submitted. Tungsten isotopes decay in more light elements after deuterium discharge is observed. More high intensity of the light isotopes with mass numbers 169, 170, 171, 178, 180 after deuterium discharge exposure was found.. The increasing of the peak magnitudes in mass spectra for these isotopes for the masses more light, than W isotopes by a factor 5 – 400 was observed. This increase was from 5-50 cps into 100-20000 cps this group of isotopes.DECAY IN TUNGSTEN IRRADIATED BY LOW ENERGY DEUTERIUM IONS
IRINA SAVVATIMOVA*, GENNADY SAVVATIMOV*, ALLA KORNILOVA**
Federal State Unitary Enterprise Research Institute “Luch”* E-ail:U10492@dialup.podolsk.ru”
Moscow State University**
The analysis of tungsten and tantalum foils before, during and after deuterium discharge with the gamma/x-ray – spectrometry method is submitted. The light isotopes in tungsten decay in more elements after deuterium discharge is observed. The comparison of thermoionization mass-spectrometry and x-ray/gamma emission data allowed to suppose that the peaks observed in gamma spectra belong to the following isotopes: 169Yb70; 171mYb70; 172Hf72; 178Yb70; 180Yb70; 180mHf72; 170Hf72.
Correlation of TIMS and Gamma spectrometry data leads to the assumption that the appearance of light isotopes in the tungsten was as a result (effect) of the process stimulation (initiation) by low energy deuterium discharge.Опубликовано