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Title:	EXPERIMENTAL OBSERVATION AND A POSSIBLE WAY TO THE CREATE ANOMALOUS ISOTOPES AND STABLE SUPERHEAVY NUCLEI VIA ELECTRON-NUCLEUS COLLAPSE
DOI No:	10.1142/9789812701510_0043
Source:	CONDENSED MATTER NUCLEAR SCIENCE (pp 493-508)
Author(s):	S.V. ADAMENKO Electrodynamics Laboratory “Proton-21”, Kiev, Ukraine V.I. VYSOTSKII Electrodynamics Laboratory “Proton-21”, Kiev, Ukraine Taras Shevchenko Kiev National University, Ukraine
Abstract:	The problem of supercompression of a solid target to a collapse state is considered. The basic principles of construction and the parameters of an experimental setup ensuring such a supercompression are described. The model and method of creation and evolution of superheavy nuclear clusters with 250 < A < 500 and A > 3000 – 5000 in the controlled collapse zone and in the volume of a remote accumulating screen are discussed. The evolution of such clusters results in the synthesis of isotopes with 1 < A < 500, and with anomalous spatial distribution in the volume of a remote screen. These phenomena were interpreted in terms of the concept of the formation of a self-organizing and self-supporting collapse of the electron-nucleus plasma under the action of a coherent driver up to a state close to that of nuclear matter.
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