Revealing Fundamental Physics from the Daya Bay Neutrino Experiment using Deep Neural Networks

January 28, 2016 ยท Declared Dead ยท ๐Ÿ› International Conference on Machine Learning and Applications

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Authors Evan Racah, Seyoon Ko, Peter Sadowski, Wahid Bhimji, Craig Tull, Sang-Yun Oh, Pierre Baldi, Prabhat arXiv ID 1601.07621 Category stat.ML: Machine Learning (Stat) Cross-listed cs.LG, physics.data-an Citations 32 Venue International Conference on Machine Learning and Applications Last Checked 4 months ago
Abstract
Experiments in particle physics produce enormous quantities of data that must be analyzed and interpreted by teams of physicists. This analysis is often exploratory, where scientists are unable to enumerate the possible types of signal prior to performing the experiment. Thus, tools for summarizing, clustering, visualizing and classifying high-dimensional data are essential. In this work, we show that meaningful physical content can be revealed by transforming the raw data into a learned high-level representation using deep neural networks, with measurements taken at the Daya Bay Neutrino Experiment as a case study. We further show how convolutional deep neural networks can provide an effective classification filter with greater than 97% accuracy across different classes of physics events, significantly better than other machine learning approaches.
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