https://doi.org/10.1140/epja/i2018-12634-y
Regular Article - Experimental Physics
Analysis of experimental cross-section for (, n) reactions in odd A and odd Z heavy nuclei: A systematics on pre-compound emission
1
Department of Physics, Shri Varshney College, 202 001, Aligarh, India
2
Accelerator Laboratory, Physics Department, Aligarh Muslim University, 202 002, Aligarh, India
3
Departamento de Aceleradores, Instituto Nacional de Investigaciones Nucleares, Apartado Postal 18-1027, C.P. 11801, Ciudad de Mexico, Mexico
4
NP-Group, Inter-University Accelerator Centre, 110 067, New Delhi, India
5
Department of Physics, Indian Institute of Technology Roopnagar, 140 001, Ropar, India
6
Department of Physics, University of Petroleum and Energy Studies, Dehradun, India
* e-mail: manojamu76@gmail.com
Received:
3
August
2018
Accepted:
7
October
2018
Published online:
30
November
2018
Aiming to develop a systematics in the pre-compound emission process and to get its driving parameters, a sensitive analysis of the measured excitation functions for (, n) reaction channel on target nuclei viz., 139La, 159Tb, 181Ta, 197Au and 203Tl has been performed with codes PACE4 and ALICE at low projectile energies, where the compound nucleus process is dominant. The code PACE4 considers only compound nucleus emission, while the ALICE code takes into account both compound and pre-compound emissions. The observed enhancement in experimental excitation functions in the tail portion of energies as compared to calculations performed with code PACE4 may be attributed to the contribution from pre-compound emission. Further, the calculations performed with the ALICE code confirm the significant contribution of the pre-compound emission. The effect of various pre-compound parameters on measured excitation functions has also been studied. The energy dependent yield of the pre-compound contribution over the compound nucleus emission for neutron emission channels is deduced in terms of pre-compound fraction “FPCN” which gives a good systematics on such process. The developed systematics in -induced reactions on target nuclei reflects that the pre-compound process is governed by the excitation energy available with the nucleons at the surface of the composite systems. Furthermore, the mass number of the target nuclei may also play an important role in the pre-compound process at low projectile energies.
© SIF, Springer-Verlag GmbH Germany, part of Springer Nature, 2018