Competition of fusion and quasi-fission in the reactions leading to
  production of the superheavy elements

A. B. Quint; A. V. Yeremin; C.-C. Sahm; C.-C. Sahm; D. Vermeulen; H. W. Gäggeler; J. Blocki; J. Peter; K.-H. Schmidt; L. C. Vaz; M. G. Itkis; M. Veselsky; M. Veselsky; P. Möller; R. N. Sagaidak; S. Cohen; S. Hofmann; S. M. Lukyanov; V. A. Rubchenya; V. Ninov; W. Morawek; W. Reisdorf; W. Reisdorf; Yu. Ts. Oganessian

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Competition of fusion and quasi-fission in the reactions leading to production of the superheavy elements

Authors: A. B. Quint
A. V. Yeremin
C.-C. Sahm
C.-C. Sahm
D. Vermeulen
H. W. Gäggeler
J. Blocki
J. Peter
K.-H. Schmidt
L. C. Vaz
M. G. Itkis
M. Veselsky
M. Veselsky
P. Möller
R. N. Sagaidak
S. Cohen
S. Hofmann
S. M. Lukyanov
V. A. Rubchenya
V. Ninov
W. Morawek
W. Reisdorf
W. Reisdorf
Yu. Ts. Oganessian
Publication date: 1 January 2003
Publisher: 'Pleiades Publishing Ltd'
Doi

Abstract

The mechanism of fusion hindrance, an effect observed in the reactions of cold, warm and hot fusion leading to production of the superheavy elements, is investigated. A systematics of transfermium production cross sections is used to determine fusion probabilities. Mechanism of fusion hindrance is described as a competition of fusion and quasi-fission. Available evaporation residue cross sections in the superheavy region are reproduced satisfactorily. Analysis of the measured capture cross sections is performed and a sudden disappearance of the capture cross sections is observed at low fusion probabilities. A dependence of the fusion hindrance on the asymmetry of the projectile-target system is investigated using the available data. The most promising pathways for further experiments are suggested.Comment: 8 pages, 7 figures, talk presented at 7th International School-Seminar on Heavy-Ion Physics, May 27 - June 1, 2002, Dubna, Russi

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