Speaker
Description
In connection with the modern development of technologies in nuclear energy, the important task is to substantially refine the experimental data on fast neutron scattering. The high cost of nuclear facilities leads to the need for an accurate model description of the processes of neutrons interaction with atomic nuclei. As important components of structural materials, titanium, chromium and iron isotopes have priority in the list of studied nuclei [1,2,3].
The TANGRA collaboration is studying inelastic scattering reactions of 14 MeV neutrons [4]. Our previous work was devoted to studying the reaction $^{52}$Cr$(n,n')$ [5]. New data are obtained on the cross sections of $\gamma$-quanta emission in reactions $(n,X\gamma)$, where $X = n,2n,\alpha$, on $^{48}$Ti and $^{56}$Fe. We present the results of modeling neutron scattering using the program code TALYS 1.9 and compare new experimental data and simulations with the results of other experiments.
References
- R.Beyer, et al, Nucl. Phys. A, 927 (2014) 41-52
- A.Olacel, et al, Phys. Rev. C 96 (2017) 014621
- L.C.Mihailescu, et al, Nucl. Phys. A 786 (2007) 1-23
- I.N. Ruskov, et al, Phys. Procedia. 64, (2015) 163
- D.N. Grozdanov, et al, Phys. At. Nucl. 83, 3 (2020) in print
