The investigation of the reaction22Na(n, p)22Ne for a neutron energy to 1,000 eV

Abstract: The reaction 2ZNa(n,p)2ZNe has been investigated at a neutron energy up to 1,000eV by the time-of-flight method at the reaction IBR-30 of JINR. A neutron resonance was found in the reaction cross section. By fit, the parameters assigned to the resonance were E o = 145 _+ 11 eV; F, ~ = 1.6 + 0.2 eV; Fpl = 114 _+ 20 eV. The presence of this resonance explains the large values for the thermal cross section of this reaction.

“…Parallel to this theoretical research, works aimed at the experimental collection of nuclear data in the same field of nuclear fission 57,58,59,60,61,62,63 were begun. Benefiting …”

On the Development of Nuclear Physics in Cuba

“…Parallel to this theoretical research, works aimed at the experimental collection of nuclear data in the same field of nuclear fission 57,58,59,60,61,62,63 were begun. Benefiting …”

On the Development of Nuclear Physics in Cuba

“…This is highly significant for the neutron-deficient nuclei [3], because in this case the binding energy Bp for protons is considerably lower than B, for neutrons. This is highly significant for the neutron-deficient nuclei [3], because in this case the binding energy Bp for protons is considerably lower than B, for neutrons.…”

Study of the36Cl(n, p)36S reaction in the neutron energy range up to 10 keV

11-Sodium