Competition between few nucleon emission and?-ray deexcitation for the reaction systems65Cu+87Rb and40Ar+110Pd

Cabot, C.; Gauvin, H.; Sergolle, H.; Aguer, P.; Bastin, GF Giel; Thibaud, J. P.; Delagrange, H.; Patin, Y.

doi:10.1007/bf01412074

Cited by 17 publications

(7 citation statements)

References 49 publications

(47 reference statements)

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“…Such a small value for ~el implies that 7 emission becomes important only when particle decay is energetically forbidden. In agreement with the results of many previous works [29][30][31] such values for the two parameters lead to the prediction of too many evaporated neutrons. For example, the maximum of the calculated 4n excitation function is shifted by ~ 5 MeV towards lower energy compared to the experimental data.…”

Section: ~2supporting

confidence: 90%

See 1 more Smart Citation

Influence of the giant dipole resonance in the statistical decay of the compound nucleus160Er

Tobbeche

Barrette

Haas³

et al. 1986

Z. Physik A - Atomic Nuclei

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Evaporation residue excitation functions and statistical 7-ray spectra have been measured in the heavy ion fusion reaction ~60+144Nd~16~ between EL~b=76 and 105 MeV. In agreement with statistical model calculations, the evolution of the 7-ray spectra as a function of the compound nucleus excitation energy is consistent with the emission of high-energy ~ rays (E~> 10 MeV) in the early stage of the decay process. The description of the evaporation residue distributions by the statistical model is improved if a 7 strength function including a giant dipole resonance built on each excited state and describing the shape of the measured statistical 7-ray spectra is used in the calculations. The present analysis shows, however, that there is a strong correlation between the parameters of the resonance deduced from the fit to the 7-ray spectra and other parameters of the statistical model, in particular the level density parameter.

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Section: ~2supporting

confidence: 90%

“…To reproduce these widths in the present mass region requires ~E1 ~3-6 x 10 -7 [29,31,321. Increasing the V competion by using such values for the v-strength function slightly improves the agreement.…”

Section: ~2mentioning

confidence: 96%

Influence of the giant dipole resonance in the statistical decay of the compound nucleus160Er

Tobbeche

Barrette

Haas³

et al. 1986

Z. Physik A - Atomic Nuclei

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“…For example, the experimental particle multiplicities for the reaction Sn+ Si at various bombarding energies were found by Stwertka et aj]l. [7,8] to be systematically lower than predicted by statistical evaporation codes, employing sets of input parameters established in earlier studies covering a wide range of nuclear systems. In related work, Janssens et al [11] have studied the two systems 9 30 to 70 MeV. It was noted in their study that, while the statistical model describes quite accurately the average multiplicities of neutrons from the asymmetric, C-induced reaction, it systematically underpredicts the emission of neutrons from the more symmetric, Ni-induced reaction.…”

Section: Introductionmentioning

confidence: 99%

Thermal characteristics of composite systems formed in fusion ofSi28with

Wile¹,

Datta²,

Schröder³

et al. 1993

Phys. Rev. C

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Neutrons from the fusion reactions of 120 -150 MeV Si with Sn and Sn target nuclei have been measured in coincidence with evaporation residues, in two series of complementary experiments using either a 4' neutron multiplicity meter or a neutron time-of-flight spectrometer. Both the energy spectra and multiplicity distributions reveal significant quantitative di8'erences in the decay patterns of the compound nuclei Gd and Gd formed in the two reactions studied. It is shown that these differences cannot be understood in terms of decay cascades proceeding through states of enhanced collective energy, such as the superdeformed states, suggested in earlier studies. Instead, they can be explained consistently within the framework of a statistical decay model, if diferent effective level density parameters are allowed for the evaporation chains of the two composite systems. PACS number(s): 25.70.Jj, 25.70.Gh

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“…The average spin A/ ns per nonstatistical photon was determined by fitting the y-ray angular distributions with a series of Legendre polynomials. The attenuation coefficient a 2 sst 0JS reported 11 for 154 Er has been used. The multiplicity-tospin conversion is described in detail by Fischer et ai n Since most of the residues have isomeric states, 11 distributions for individual decay branches populating or bypassing isomers have been summed to obtain the spin distribution for a given residue.…”

mentioning

confidence: 99%

Unexpected Entrance-Channel Effects in the Decay of the Compound NucleusEr156

Ruckelshausen

Fischer²,

Kühn³

et al. 1986

Phys. Rev. Lett.

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Angular momentum distributions for the dominant decay channels of 156 Er compound nuclei have been studied with the Darmstadt-Heidelberg "crystal ball" detector in nearly mass-symmetric ( 64 Ni-f 92 Zr) and asymmetric ( 12 C + 144 Sm) entrance channels. Strong differences in the an yield and 2n/3n cross-section ratios are observed at the same excitation energy (47 MeV) and spin in 156 Er. This effect indicates that there is memory of the entrance channel during the particleevaporation stage of the compound-nucleus decay. The dominant exit channels do not exhibit high-angular-momentum components.

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Competition between few nucleon emission and?-ray deexcitation for the reaction systems65Cu+87Rb and40Ar+110Pd

Cited by 17 publications

References 49 publications

Influence of the giant dipole resonance in the statistical decay of the compound nucleus160Er

Influence of the giant dipole resonance in the statistical decay of the compound nucleus160Er

Thermal characteristics of composite systems formed in fusion ofSi28with

Unexpected Entrance-Channel Effects in the Decay of the Compound NucleusEr156

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