Possibilities of production of transfermium nuclei in complete fusion reactions with radioactive beams

Possibilities of production of transfermium nuclei in complete fusion reactions with radioactive... The possibilities of direct production of new isotopes of transfermium nuclei No261,263,264, Lr263,264, Rf263,264,266,268, Db264,265, and Sg267,268,270,272 are studied in various asymmetric hot fusion-evaporation reactions with radioactive beams. The optimal reaction partners and conditions for the synthesis of new isotopes are suggested. The products of the suggested reactions can fill a gap of unknown isotopes between the isotopes of heaviest nuclei obtained in the xn evaporation channels of the cold and hot complete fusion reactions with the stable beams. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review C American Physical Society (APS)

Possibilities of production of transfermium nuclei in complete fusion reactions with radioactive beams

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Possibilities of production of transfermium nuclei in complete fusion reactions with radioactive beams

Abstract

The possibilities of direct production of new isotopes of transfermium nuclei No261,263,264, Lr263,264, Rf263,264,266,268, Db264,265, and Sg267,268,270,272 are studied in various asymmetric hot fusion-evaporation reactions with radioactive beams. The optimal reaction partners and conditions for the synthesis of new isotopes are suggested. The products of the suggested reactions can fill a gap of unknown isotopes between the isotopes of heaviest nuclei obtained in the xn evaporation channels of the cold and hot complete fusion reactions with the stable beams.
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Publisher
The American Physical Society
Copyright
Copyright © ©2017 American Physical Society
ISSN
0556-2813
eISSN
1089-490X
D.O.I.
10.1103/PhysRevC.96.014609
Publisher site
See Article on Publisher Site

Abstract

The possibilities of direct production of new isotopes of transfermium nuclei No261,263,264, Lr263,264, Rf263,264,266,268, Db264,265, and Sg267,268,270,272 are studied in various asymmetric hot fusion-evaporation reactions with radioactive beams. The optimal reaction partners and conditions for the synthesis of new isotopes are suggested. The products of the suggested reactions can fill a gap of unknown isotopes between the isotopes of heaviest nuclei obtained in the xn evaporation channels of the cold and hot complete fusion reactions with the stable beams.

Journal

Physical Review CAmerican Physical Society (APS)

Published: Jul 13, 2017

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