Recent research conducted at Legnaro National Laboratory has shed light on the transfer of neutrons in weakly bound nuclei. The study, focusing on the one-neutron stripping process in reactions involving lithium-6 and bismuth-209, has been published in the journal Nuclear Science and Techniques.

Contrary to previous beliefs, the research findings have shown that the one-neutron stripping process can have a greater impact at lower energies compared to complete fusion reactions. This discovery challenges conventional wisdom and highlights the complexity of nuclear interactions.

To conduct the study, researchers utilized the GALILEO Array and the 4π Si-ball EUCLIDES for in-depth spectroscopic analysis. By employing the gamma-gamma coincidence method, specific reaction channels were isolated with precision, allowing for a detailed examination of how nuclei behave under varying conditions.

According to J. Lubian, the corresponding author of the study, a deeper understanding of nuclear behavior in these conditions can lead to improvements in nuclear energy production and radiation therapy. The research opens up possibilities for advancements in medical physics and energy research, emphasizing the importance of accurate knowledge of nuclear processes.

The significance of the one-neutron stripping process in weakly bound nuclei highlights the intricate nature of nuclear reactions. This new insight serves as a foundation for potential scientific breakthroughs in the field of nuclear science and technology, paving the way for innovative applications in the future.

Physics

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