Isomeric pair 95 m,gNb in photonuclear reactions on natMo at end-point bremsstrahlung energy of 35-95 MeV

Abstract

The natMo(γ,x np)95 m,gNb photonuclear reaction was studied using the electron beam from the NSC KIPT linear accelerator LUE-40. Experiment was performed using the activation and off-line γ-ray spectrometric technique. The experimental isomeric yield ratio d(Eγ max) = Y m(Eγ max) / Y g(Eγ max) was determined for the reaction products 95 m,gNb at the end-point bremsstrahlung energy Eγ max range of 35-95 MeV. The obtained values of d(Eγ max) are in satisfactory agreement with the results of other authors and extend the range of previously known data. The theoretical values of the yields Y m,g(Eγ max) and the isomeric yield ratio d(Eγ max) for the isomeric pair 95 m,gNb from the natMo(γ,x np) reaction were calculated using the partial cross-sections σ(E) from the TALYS1.95 code for six different level density models LD. The comparison showed a noticeable excess (more than 3.85 times) of the experimental isomeric yield ratio over all theoretical estimates. At the investigated range of Eγ max the theoretical dependence of d(Eγ max) on energy was confirmed - the isomeric yield ratio smoothly decreases with increasing energy.