Abstract
The mechanism of production and decay of excited compound nuclei leading to production of isotopes of trans actinide elements in the vicinity of closed deformed shells Z = 108, N = 162 is being considered. The implementation of experiments is described and data on synthesis of new isotopes {sup 262}104, {sup 265,266} 106 and {sup 267} 108 in hot fusion reactions is presented. The properties of the new nuclides point to a considerable increase of the periods of spontaneous fission predicted by the macro-microscopic theory. Prospects for using fusion reactions in synthesizing new elements are discussed.(author). 30 refs.; 9 figs.; 2 tabs.
Citation Formats
Oganessian, Yu Ts.
Synthesis and Properties of Superheavy Nuclei.
JINR: N. p.,
1994.
Web.
Oganessian, Yu Ts.
Synthesis and Properties of Superheavy Nuclei.
JINR.
Oganessian, Yu Ts.
1994.
"Synthesis and Properties of Superheavy Nuclei."
JINR.
@misc{etde_10112765,
title = {Synthesis and Properties of Superheavy Nuclei}
author = {Oganessian, Yu Ts}
abstractNote = {The mechanism of production and decay of excited compound nuclei leading to production of isotopes of trans actinide elements in the vicinity of closed deformed shells Z = 108, N = 162 is being considered. The implementation of experiments is described and data on synthesis of new isotopes {sup 262}104, {sup 265,266} 106 and {sup 267} 108 in hot fusion reactions is presented. The properties of the new nuclides point to a considerable increase of the periods of spontaneous fission predicted by the macro-microscopic theory. Prospects for using fusion reactions in synthesizing new elements are discussed.(author). 30 refs.; 9 figs.; 2 tabs.}
place = {JINR}
year = {1994}
month = {Dec}
}
title = {Synthesis and Properties of Superheavy Nuclei}
author = {Oganessian, Yu Ts}
abstractNote = {The mechanism of production and decay of excited compound nuclei leading to production of isotopes of trans actinide elements in the vicinity of closed deformed shells Z = 108, N = 162 is being considered. The implementation of experiments is described and data on synthesis of new isotopes {sup 262}104, {sup 265,266} 106 and {sup 267} 108 in hot fusion reactions is presented. The properties of the new nuclides point to a considerable increase of the periods of spontaneous fission predicted by the macro-microscopic theory. Prospects for using fusion reactions in synthesizing new elements are discussed.(author). 30 refs.; 9 figs.; 2 tabs.}
place = {JINR}
year = {1994}
month = {Dec}
}