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Variational inference for pile-up removal at hadron colliders with diffusion models

Published inPhysical review. D, vol. 111, no. 11
Publication date2025
First online date2025-06-13
Abstract

In this paper, we present a novel method for pile-up removal of pp interactions using variational inference with diffusion models, called vipr. Instead of using classification methods to identify which particles are from the primary collision, a generative model is trained to predict the constituents of the hard-scatter particle jets with pile-up removed. This results in an estimate of the full posterior over hard-scatter jet constituents, which has not yet been explored in the context of pile-up removal, yielding a clear advantage over existing methods especially in the presence of imperfect detector efficiency. We evaluate the performance of vipr in a sample of jets from simulated tt¯ events overlain with pile-up contamination. vipr outperforms softdrop and has comparable performance to puppiml in predicting the substructure of the hard-scatter jets over a wide range of pile-up scenarios.

Citation (ISO format)
ALGREN, Malte et al. Variational inference for pile-up removal at hadron colliders with diffusion models. In: Physical review. D, 2025, vol. 111, n° 11. doi: 10.1103/physrevd.111.116010
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Additional URL for this publicationhttps://link.aps.org/doi/10.1103/PhysRevD.111.116010
Journal ISSN2470-0010
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