News Release

Key mechanism in nuclear reaction dynamics promises advances in nuclear physics

New findings of neutron transfer in low-energy nuclear reaction

Peer-Reviewed Publication

Nuclear Science and Techniques

(a)Schematic of the experimental setup (sectional view). (b) Rendering and figure of the EUCLIDES array. (c) Figure of the GALILEO array. (d) Figure of ten HPGe detectors located at 90° in the GALILEO array

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Using the advanced GALILEO Array coupled with the 4π Si-ball EUCLIDES, the researchers conducted in-depth spectroscopic analysis to track and identify the reactions. The gamma-gamma coincidence method was crucial in isolating specific reaction channels, allowing the team to pinpoint the behavior of nuclei under different conditions with high accuracy. (https://doi.org/10.1007/s41365-024-01462-w)

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Credit: Zhang, Gaolong

Researchers have made a significant progress in understanding the transfer of neutrons in weakly bound nuclei. The experiment, performed at Legnaro National Laboratory, focused on the one-neutron stripping process in reactions involving lithium-6 and bismuth-209.

Surpassing Fusion in Low-Energy Nuclear Reactions

The collaborative research effort has shown that the one-neutron stripping process yields results comparable to those of complete fusion reactions especially in energy regions near nuclear barriers. Contrary to previous expectations, the results indicate that the one-neutron transfer plays a dominant role at lower energies, exceeding the output of fusion reactions.

New Insights into Complex Interactions of Weakly Bound Nuclei

This research builds on decades of investigations into how weakly bound nuclei like lithium-6 interact with heavier nuclei. Lithium-6 is known for its delicate structure which makes it prone to breaking up and engaging in complex reaction pathways. The study has confirmed that even as energy decreases, the impact of these reactions remains significant, providing new data on how nuclear interactions occur under various conditions.

Advanced Spectroscopy Techniques

Using the advanced GALILEO Array coupled with the 4π Si-ball EUCLIDES, the researchers conducted in-depth spectroscopic analysis to track and identify the reactions. The gamma-gamma coincidence method was crucial in isolating specific reaction channels, allowing the team to pinpoint the behavior of nuclei under different conditions with high accuracy.

Enhanced Nuclear Application Strategies

"By better understanding the behavior of nuclei in these conditions, we can enhance our approaches to nuclear energy production and radiation therapy," stated J. Lubian, the corresponding author of the study. This research paves the way to potential applications in medical physics and energy research, where precise knowledge of nuclear processes is crucial.

The one-neutron stripping process underscores the intricate and nuanced nature of nuclear reactions, providing a stepping stone for future scientific breakthroughs in nuclear science and technology.

This study represents a collaborative effort between Beihang University, Sun Yat-Sen University, Universidade Federal Fluminense, Comisión Nacional de Energía Atómica, Shenzhen University, INFN Sezione di Padova, Universita di padova, Soochow University, China Institute of Atomic Energy, Beijing Normal University, INFN Laboratori Nazionali di Legnaro, INFN Sezione di Napoli, Università di Napoli “Federico II”, Tarsus University, Argonne National Laboratory, Sivas Cumhuriyet University, and Universidade Federal do Rio de Janeiro. (https://doi.org/10.1007/s41365-024-01462-w)


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