Interpretable Boosted Decision Tree Analysis for the Majorana Demonstrator

The Majorana Demonstrator is a leading experiment searching for neutrinoless double-beta decay with high purity germanium detectors (HPGe). Machine learning provides a new way to maximize the amount of information provided by these detectors, but the data-driven nature makes it less interpretable co...

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Bibliographic Details
Published in:arXiv.org 2024-08
Main Authors: Arnquist, I J, Avignone, F T, Barabash, A S, Barton, C J, Bhimani, K H, Blalock, E, Bos, B, Busch, M, Buuck, M, Caldwell, T S, Y -D Chan, Christofferson, C D, P -H Chu, Clark, M L, Cuesta, C, Detwiler, J A, Efremenko, Yu, Elliott, S R, Giovanetti, G K, Green, M P, Gruszko, J, Guinn, I S, Guiseppe, V E, Haufe, C R, Henning, R, D Hervas Aguilar, Hoppe, E W, Hostiuc, A, Kidd, M F, Kim, I, Kouzes, R T, Lannen, T E, A Li, Lopez-Castano, J M, Martin, E L, Martin, R D, Massarczyk, R, Meijer, S J, Oli, T K, Othman, G, Paudel, L S, Pettus, W, Poon, A W P, Radford, D C, Reine, A L, Rielage, K, Ruof, N W, Schaper, D C, Tedeschi, D, Varner, R L, Vasilyev, S, Wilkerson, J F, Wiseman, C, W Xu, C -H Yu
Format: Article
Language:English
Subjects:
Beta decay
Data analysis
Decision analysis
Decision making
Decision trees
Detectors
Germanium
Machine learning
Sensors
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Summary:The Majorana Demonstrator is a leading experiment searching for neutrinoless double-beta decay with high purity germanium detectors (HPGe). Machine learning provides a new way to maximize the amount of information provided by these detectors, but the data-driven nature makes it less interpretable compared to traditional analysis. An interpretability study reveals the machine's decision-making logic, allowing us to learn from the machine to feedback to the traditional analysis. In this work, we have presented the first machine learning analysis of the data from the Majorana Demonstrator; this is also the first interpretable machine learning analysis of any germanium detector experiment. Two gradient boosted decision tree models are trained to learn from the data, and a game-theory-based model interpretability study is conducted to understand the origin of the classification power. By learning from data, this analysis recognizes the correlations among reconstruction parameters to further enhance the background rejection performance. By learning from the machine, this analysis reveals the importance of new background categories to reciprocally benefit the standard Majorana analysis. This model is highly compatible with next-generation germanium detector experiments like LEGEND since it can be simultaneously trained on a large number of detectors.
ISSN:2331-8422
DOI:10.48550/arxiv.2207.10710