Investigate the potential of using reactor anti-neutrinos for nuclear safeguards in Vietnam

Communications in Physics Pub Date : 2023-04-25 DOI:10.15625/0868-3166/17494

S. Cao, Ngoc Tran, V. Nguyen, Quyen Phan

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Abstract

One of the most abundant man-made sources of low energy (few~MeVs) neutrinos, reactor neutrino, is not only useful for studying neutrino properties, but it is also used in practical applications. In this study, we investigate the potential of using reactor neutrino detectors for nuclear safeguards in Vietnam, specifically at the Dalat Nuclear Reactor, a future research facility, and presumably commercial reactors with 500~kW, 10~MW, and 1000~MW thermal powers, respectively. We compute the rate of observed inverted beta decay events, as well as the statistical significance of extracting isotope composition under the practical assumptions of detector mass, detection efficiency, and background level. We find that a 1-ton detector mass can allow us to detect the reactor's on-off transition state from a few hours to a few days, depending on the standoff distance and reactor thermal power. We investigate how background and energy resolution affect the precision of the extracted weapon-usable \(^{239}\)Pu isotope. We conclude that in order to distinguish the 10% variation of the \(^{239}\)Pu in the 10~MW thermal power reactor, a 1-ton detector placed 50~m away must achieve 1% background level. Increasing the statistics by using a 10x larger detector or placing it \(\sqrt{10}\) times closer to the reactor alleviates the requirement of the background level to 10%.

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调查在越南核保障中使用反应堆反中微子的可能性

反应堆中微子是低能量(mev)中微子最丰富的人造来源之一，它不仅对研究中微子的性质有用，而且在实际应用中也有应用。在本研究中，我们调查了在越南核保障中使用反应堆中微子探测器的潜力，特别是在大叻核反应堆，一个未来的研究设施，以及可能分别具有500千瓦，10兆瓦和1000兆瓦热功率的商业反应堆。我们计算了观测到的倒β衰变事件的速率，以及在探测器质量、检测效率和背景水平的实际假设下提取同位素组成的统计显著性。我们发现，一个1吨的探测器质量可以让我们在几小时到几天内检测到反应堆的开关过渡状态，具体时间取决于距离和反应堆的热功率。我们研究背景和能量分辨率如何影响提取武器可用\(^{239}\) Pu同位素的精度。我们的结论是，为了区分10% variation of the \(^{239}\)Pu in the 10~MW thermal power reactor, a 1-ton detector placed 50~m away must achieve 1% background level. Increasing the statistics by using a 10x larger detector or placing it \(\sqrt{10}\) times closer to the reactor alleviates the requirement of the background level to 10%.

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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Communications in Physics

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