New detection systems for an enhanced sensitivity in key stellar (n,γ) measurements

EPJ Web of Conferences Pub Date : 2023-03-15 DOI:10.1051/epjconf/202327913001

J. Lerendegui-Marco, V. Babiano-Su'arez, J. Balibrea-Correa, C. Domingo-Pardo, I. Ladarescu, A. Tarifeño-Saldivia, V. Alcayne, D. Cano-Ott, E. Gonz'alez-Romero, T. Mart'inez, E. Mendoza, C. Guerrero, F. Calviño, A. Casanovas, U. Koster, N. Chiera, R. Dressler, E. Maugeri, D. Schumann, The nTOF Collaboration

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引用次数: 3

Abstract

Neutron capture cross-section measurements are fundamental in the study of astrophysical phenomena, such as the slow neutron capture (s-) process of nucleosynthesis operating in red-giant and massive stars. However, neutron capture measurements via the time-of-flight (TOF) technique on key s-process nuclei are often challenging. Difficulties arise from the limited mass (∼mg) available and the high sample-related background in the case of the unstable s-process branching points. Measurements on neutron magic nuclei, that act as s-process bottlenecks, are affected by low (n,γ) cross sections and a dominant neutron scattering background. Overcoming these experimental challenges requires the combination of facilities with high instantaneous flux, such as n_TOFEAR2, with detection systems with an enhanced detection sensitivity and high counting rate capabilities. This contribution reviews some of the latest detector developments in detection systems for (n,γ) measurements at n_TOF, such as i-TED, an innovative detection system which exploits the Compton imaging technique to reduce the dominant neutron scattering background and s-TED, a highly segmented total energy detector intended for high flux facilities. The discussion will be illustrated with results of the first measurement of key the s-process branching-point reaction 79Se(n,γ).

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新的探测系统提高了关键恒星(n，γ)测量的灵敏度

中子俘获截面测量是研究天体物理现象的基础，例如在红巨星和大质量恒星中运行的核合成的慢中子俘获过程。然而，通过飞行时间(TOF)技术对关键s过程核进行中子捕获测量通常具有挑战性。在不稳定的s过程分支点的情况下，困难来自有限的可用质量(~ mg)和高样本相关背景。作为s过程瓶颈的中子魔核的测量受到低(n，γ)横截面和主要中子散射背景的影响。克服这些实验挑战需要将具有高瞬时通量的设施(如n_TOFEAR2)与具有增强检测灵敏度和高计数率能力的检测系统相结合。这篇文章回顾了n_TOF (n，γ)测量检测系统的一些最新探测器发展，例如i-TED，一种利用康普顿成像技术减少主要中子散射背景的创新检测系统和s-TED，一种用于高通量设施的高度分段总能量探测器。讨论将用s过程支点反应79Se(n，γ)的第一次关键测量结果来说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EPJ Web of Conferences

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