Nuclear-fission studies with relativistic secondary beams: analysis of fission channels

TL;DR

This study investigates nuclear fission in neutron-deficient actinides using relativistic secondary beams, revealing systematic properties of multimodal fission channels across multiple systems around 226Th.

Contribution

It provides a systematic analysis of fission channels in neutron-deficient actinides, identifying consistent properties and contributions of three fission modes across 15 systems.

Findings

Fission channels are characterized for 15 systems.

Asymmetric fission channels are element-independent.

Properties of fission channels are consistent across systems.

Abstract

Nuclear fission of several neutron-deficient actinides and pre-actinides from excitation energies around 11 MeV was studied at GSI Darmstadt by use of relativistic secondary beams. The characteristics of multimodal fission of nuclei around 226Th are systematically investigated and interpreted as the superposition of three fission channels. Properties of these fission channels have been determined for 15 systems. A global view on the properties of fission channels including previous results is presented. The positions of the asymmetric fission channels are found to be constant in element number over the whole range of systems investigated.