Identification of tau leptons using a convolutional neural network with domain adaptation

the CMS Collaboration; A Hayrapetyan; Jim Brooke; Aaron Bundock; Florian J J Bury; Emyr J Clement; David G Cussans; Dharmender Gaur; H. Flächer; Joel Goldstein; Helen F Heath; Mei-Li Holmberg; Lukasz Kreczko; Sudarshan Paramesvaran; Liam Robertshaw; Shahzad S Sanjrani; Jeronimo A Segal; Vincent J Smith; et al

doi:10.1088/1748-0221/20/12/P12032

Identification of tau leptons using a convolutional neural network with domain adaptation

the CMS Collaboration, A Hayrapetyan, Jim Brooke, Aaron Bundock, Florian J J Bury, Emyr J Clement, David G Cussans, Dharmender Gaur, H. Flächer, Joel Goldstein, Helen F Heath, Mei-Li Holmberg, Lukasz Kreczko, Sudarshan Paramesvaran, Liam Robertshaw, Shahzad S Sanjrani, Jeronimo A Segal, Vincent J Smith, et al

Research output: Contribution to journal › Article (Academic Journal) › peer-review

Abstract

A tau lepton identification algorithm,DeepTau, based on convolutional neural network techniques, has been developed in the CMS experiment to discriminate reconstructed hadronic decays of tau leptons (τ_h) from quark or gluon jets and electrons and muons that are misreconstructed as τ_h candidates. The latest version of this algorithm, v2.5, includes domain adaptation by backpropagation, a technique that reduces discrepancies between collision data and simulation in the region with the highest purity of genuine τ_h candidates. Additionally, a refined training workflow improves classification performance with respect to the previous version of the algorithm, with a reduction of 30–50% in the probability for quark and gluon jets to be misidentified as τ_h candidates for given reconstruction and identification efficiencies. This paper presents the novel improvements introduced in theDeepTau algorithm and evaluates its performance in LHC proton-proton collision data at √(s) = 13 and 13.6 TeV collected in 2018 and 2022 with integrated luminosities of 60 and 35 fb^-1, respectively. Techniques to calibrate the performance of the τh identification algorithm in simulation with respect to its measured performance in real data are presented, together with a subset of results among those measured for use in CMS physics analyses.

Original language	English
Article number	P12032
Number of pages	57
Journal	Journal of Instrumentation
Volume	20
Issue number	12
DOIs	https://doi.org/10.1088/1748-0221/20/12/P12032
Publication status	Published - 19 Dec 2025

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© 2025 CERN for the benefit of the CMS collaboration.

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the CMS Collaboration, Hayrapetyan, A., Brooke, J., Bundock, A., Bury, F. J. J., Clement, E. J., Cussans, D. G., Gaur, D., Flächer, H., Goldstein, J., Heath, H. F., Holmberg, M.-L., Kreczko, L., Paramesvaran, S., Robertshaw, L., Sanjrani, S. S., Segal, J. A., Smith, V. J., & al , E. (2025). Identification of tau leptons using a convolutional neural network with domain adaptation. Journal of Instrumentation, 20(12), Article P12032. https://doi.org/10.1088/1748-0221/20/12/P12032

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title = "Identification of tau leptons using a convolutional neural network with domain adaptation",

abstract = "A tau lepton identification algorithm,DeepTau, based on convolutional neural network techniques, has been developed in the CMS experiment to discriminate reconstructed hadronic decays of tau leptons (τh) from quark or gluon jets and electrons and muons that are misreconstructed as τh candidates. The latest version of this algorithm, v2.5, includes domain adaptation by backpropagation, a technique that reduces discrepancies between collision data and simulation in the region with the highest purity of genuine τh candidates. Additionally, a refined training workflow improves classification performance with respect to the previous version of the algorithm, with a reduction of 30–50\% in the probability for quark and gluon jets to be misidentified as τh candidates for given reconstruction and identification efficiencies. This paper presents the novel improvements introduced in theDeepTau algorithm and evaluates its performance in LHC proton-proton collision data at √(s) = 13 and 13.6 TeV collected in 2018 and 2022 with integrated luminosities of 60 and 35 fb-1, respectively. Techniques to calibrate the performance of the τh identification algorithm in simulation with respect to its measured performance in real data are presented, together with a subset of results among those measured for use in CMS physics analyses.",

author = "\{the CMS Collaboration\} and A Hayrapetyan and Jim Brooke and Aaron Bundock and Bury, \{Florian J J\} and Clement, \{Emyr J\} and Cussans, \{David G\} and Dharmender Gaur and H. Fl{\"a}cher and Joel Goldstein and Heath, \{Helen F\} and Mei-Li Holmberg and Lukasz Kreczko and Sudarshan Paramesvaran and Liam Robertshaw and Sanjrani, \{Shahzad S\} and Segal, \{Jeronimo A\} and Smith, \{Vincent J\} and et al",

note = "Publisher Copyright: {\textcopyright} 2025 CERN for the benefit of the CMS collaboration.",

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the CMS Collaboration, Hayrapetyan, A, Brooke, J , Bundock, A , Bury, FJJ , Clement, EJ , Cussans, DG , Gaur, D , Flächer, H , Goldstein, J, Heath, HF, Holmberg, M-L , Kreczko, L , Paramesvaran, S , Robertshaw, L , Sanjrani, SS , Segal, JA, Smith, VJ & al , E 2025, 'Identification of tau leptons using a convolutional neural network with domain adaptation', Journal of Instrumentation, vol. 20, no. 12, P12032. https://doi.org/10.1088/1748-0221/20/12/P12032

TY - JOUR

T1 - Identification of tau leptons using a convolutional neural network with domain adaptation

AU - the CMS Collaboration

AU - Hayrapetyan, A

AU - Brooke, Jim

AU - Bundock, Aaron

AU - Bury, Florian J J

AU - Clement, Emyr J

AU - Cussans, David G

AU - Gaur, Dharmender

AU - Flächer, H.

AU - Goldstein, Joel

AU - Heath, Helen F

AU - Holmberg, Mei-Li

AU - Kreczko, Lukasz

AU - Paramesvaran, Sudarshan

AU - Robertshaw, Liam

AU - Sanjrani, Shahzad S

AU - Segal, Jeronimo A

AU - Smith, Vincent J

AU - al , et

PY - 2025/12/19

Y1 - 2025/12/19

N2 - A tau lepton identification algorithm,DeepTau, based on convolutional neural network techniques, has been developed in the CMS experiment to discriminate reconstructed hadronic decays of tau leptons (τh) from quark or gluon jets and electrons and muons that are misreconstructed as τh candidates. The latest version of this algorithm, v2.5, includes domain adaptation by backpropagation, a technique that reduces discrepancies between collision data and simulation in the region with the highest purity of genuine τh candidates. Additionally, a refined training workflow improves classification performance with respect to the previous version of the algorithm, with a reduction of 30–50% in the probability for quark and gluon jets to be misidentified as τh candidates for given reconstruction and identification efficiencies. This paper presents the novel improvements introduced in theDeepTau algorithm and evaluates its performance in LHC proton-proton collision data at √(s) = 13 and 13.6 TeV collected in 2018 and 2022 with integrated luminosities of 60 and 35 fb-1, respectively. Techniques to calibrate the performance of the τh identification algorithm in simulation with respect to its measured performance in real data are presented, together with a subset of results among those measured for use in CMS physics analyses.

AB - A tau lepton identification algorithm,DeepTau, based on convolutional neural network techniques, has been developed in the CMS experiment to discriminate reconstructed hadronic decays of tau leptons (τh) from quark or gluon jets and electrons and muons that are misreconstructed as τh candidates. The latest version of this algorithm, v2.5, includes domain adaptation by backpropagation, a technique that reduces discrepancies between collision data and simulation in the region with the highest purity of genuine τh candidates. Additionally, a refined training workflow improves classification performance with respect to the previous version of the algorithm, with a reduction of 30–50% in the probability for quark and gluon jets to be misidentified as τh candidates for given reconstruction and identification efficiencies. This paper presents the novel improvements introduced in theDeepTau algorithm and evaluates its performance in LHC proton-proton collision data at √(s) = 13 and 13.6 TeV collected in 2018 and 2022 with integrated luminosities of 60 and 35 fb-1, respectively. Techniques to calibrate the performance of the τh identification algorithm in simulation with respect to its measured performance in real data are presented, together with a subset of results among those measured for use in CMS physics analyses.

U2 - 10.1088/1748-0221/20/12/P12032

DO - 10.1088/1748-0221/20/12/P12032

M3 - Article (Academic Journal)

SN - 1748-0221

VL - 20

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 12

M1 - P12032

ER -

Identification of tau leptons using a convolutional neural network with domain adaptation

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