Application of Quantum Machine Learning to High Energy Physics Analysis at LHC using IBM Quantum Computer Simulators and IBM Quantum Computer Hardware

Chan, Jay; Guan, Wen; Sun, Shaojun; Wang, Alex Zeng; Wu, Sau Lan; Zhou, Chen; Livny, Miron; Carminati, Federico; Di Meglio, Alberto

doi:10.22323/1.367.0049

Volume 367 - XXIX International Symposium on Lepton Photon Interactions at High Energies (LeptonPhoton2019) - Parallel Sessions

Application of Quantum Machine Learning to High Energy Physics Analysis at LHC using IBM Quantum Computer Simulators and IBM Quantum Computer Hardware

J. Chan, W. Guan, S. Sun, A.Z. Wang*, S.L. Wu, C. Zhou, M. Livny, F. Carminati and A. Di Meglio

Full text: pdf

Pre-published on: November 12, 2019

Published on: December 17, 2019

Abstract

The ambitious HL-LHC program will require enormous computing resources in the next two decades. A burning question is whether quantum computer can solve the ever growing demand of computing resources in High Energy Physics in general and physics at LHC in particular.Using IBM Quantum Computer Simulators and Quantum Computer Hardware, we have successfully employed the Quantum Support Vector Machine Method (QSVM) for a ttH (H to two photons), Higgs coupling to top quarks analysis at LHC.

DOI: https://doi.org/10.22323/1.367.0049

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