Partially connected contributions to baryon masses in QCD+QED

Rosso, Sara; Campos, Isabel; Lücke, Jens; Gruber, Roman; Tavella, Paola; Parato, Letizia; Altherr, Anian; Marinkovic, Marina; Cotellucci, Alessandro; Harris, Tim; Komijani, Javad; Patella, Agostino

doi:10.22323/1.466.0427

Contribution to a conference proceedings/Contribution to a book

FZJ-2025-05586

Partially connected contributions to baryon masses in QCD+QED

Rosso, S. (Corresponding author) ; Altherr, A. ; Campos, I. ; Cotellucci, A.FZJ* ; Gruber, R. ; Harris, T. ; Komijani, J. ; Lücke, J. ; Marinkovic, M. ; Parato, L. ; Patella, A. ; Tavella, P.

2025
Sissa Medialab Trieste, Italy

Proceedings of The 41st International Symposium on Lattice Field Theory
The 41st International Symposium on Lattice Field Theory, LATTICE 2024, Liverpool, UK, 28 Jul 2024 - 3 Aug 2024 Trieste, Italy : Sissa Medialab, Proceeding of Science 427 pp. (2025) [10.22323/1.466.0427]

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Please use a persistent id in citations: doi:10.22323/1.466.0427 doi:10.34734/FZJ-2025-05586

Abstract: Full QCD+QED simulations allow to evaluate isospin breaking corrections to hadron masses. With the openQxD code, we are able to perform these simulations employing C-periodic boundary conditions, implemented through a doubling of the physical lattice along one spatial direction.The use of these boundary conditions introduces non-zero Wick contractions between two quark or two antiquark fields, that, in the case of the computation of baryon masses, lead to partially connected additional contributions that we expect to vanish in the infinite volume limit. These contributions are challenging because they involve an all-to-all propagator connecting one point in the physical lattice and one in the mirror lattice. We present a way to compute these corrections to the $\Omega^{-}$ baryon mass using a combination of point and stochastic source inversions.This work is part of the program of the RC* collaboration.

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