Jul 26 – 30, 2021
US/Eastern timezone

Controlling unwanted exponentials in lattice calculations of radiative leptonic decays

Jul 26, 2021, 9:45 PM
15m
Oral presentation QCD in searches for physics beyond the Standard Model QCD in searches for physics beyond the Standard Model

Speaker

Christopher Kane (University of Arizona)

Description

Two important sources of systematic errors in lattice QCD calculations of radiative leptonic decays are unwanted exponentials in the sum over intermediate states and unwanted excited states created by the meson interpolating field. Performing the calculation using a 3d sequential propagator allows for better control over the systematic uncertainties from intermediate states, while using a 4d sequential propagator allows for better control over the systematic uncertainties from excited states. We calculate form factors using both methods and compare how reliably each controls these systematic errors. We also employ a hybrid approach involving global fits to data from both methods. I will present our results comparing these methods for both heavy and light mesons.

Primary authors

Christopher Kane (University of Arizona) Davide Giusti (University of Regensburg) Christoph Lehner (University of Regensburg & BNL) Stefan Meinel (University of Arizona) AMARJIT Soni (BNL)

Presentation materials