P. Engelstein scite author profile

The cross section for total fusion of the reaction ' 0+ ' C was studied over a large range of energies from near the Coulomb barrier B& to -6B~. Good agreement was found between the critical angular momenta deduced from the experimental results and the predictions of different models. The reaction ' 0+ ' C, leading to the same compound nucleus Si, was studied in the second fusion region (above -2B&). By comparing the relative cross sections for fusion-evaporation to each isotope it is shown that for different entrance channels, even at the highest energies studied, the reactions appear to pass by the formation of a compound nucleus. The critical angular momenta were found to be systematically different from ' 0+ ' C. This difference, which may be due partially to the entrance channel spin, is interpreted as arising from the effect of direct reactions diverting flux from the compound nuclear processes. NUCLEAR REACTIONS ' 0, ' 0, and ' 0 beams on ' C, ' C, and ' C targets, respectively; natural and enriched targets; E&,b --32 to 140MeV; time of flight with Z identification technique; fusion evaporation and direct cross section measurements from Z=5 to 14 and 3=10 to 29; statistical model calculations; entrance channel effects discussed; macroscopic model results for total fusion cross sections.

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Strong change in the mass distribution of fission-like processes around ACN = 100

Oeschler¹,

Wagner²,

Coffin³

et al. 1979

Physics Letters B

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Fissionlike component in theS32+Ge
Guillaume¹,
Coffin²,
Rami³
et al. 1982
Phys. Rev. C
28
2
8
0
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Étude de la structure du noyau 29P

Byrski¹,

Beck²,

Engelstein³

et al. 1974

Nuclear Physics A

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Transitional dissipative mechanism in theS32+Co
Coffin¹,
Guillaume²,
Fahli³
et al. 1984
Phys. Rev. C
9
0
8
0
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P. Engelstein

Entrance channel effect for complete fusion of O + C isotopes

Strong change in the mass distribution of fission-like processes around ACN = 100

Fissionlike component in theS32+Ge
Guillaume¹,
Coffin²,
Rami³
et al. 1982
Phys. Rev. C
28
2
8
0
View full text Add to dashboard Cite

Étude de la structure du noyau 29P

Transitional dissipative mechanism in theS32+Co
Coffin¹,
Guillaume²,
Fahli³
et al. 1984
Phys. Rev. C
9
0
8
0
View full text Add to dashboard Cite

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P. Engelstein

Entrance channel effect for complete fusion of O + C isotopes

Strong change in the mass distribution of fission-like processes around ACN = 100

Fissionlike component in theS32+GeGuillaume1, Coffin2, Rami3 et al. 1982Phys. Rev. C28280View full textAdd to dashboardCite

Étude de la structure du noyau 29P

Transitional dissipative mechanism in theS32+CoCoffin1, Guillaume2, Fahli3 et al. 1984Phys. Rev. C9080View full textAdd to dashboardCite

Contact Info

Product

Resources

About

Fissionlike component in theS32+Ge
Guillaume¹,
Coffin²,
Rami³
et al. 1982
Phys. Rev. C
28
2
8
0
View full text Add to dashboard Cite

Transitional dissipative mechanism in theS32+Co
Coffin¹,
Guillaume²,
Fahli³
et al. 1984
Phys. Rev. C
9
0
8
0
View full text Add to dashboard Cite