Probing EFT breakdown in the tails of W+ W- observables

Abstract

In this letter, we test clipping effective field theory (EFT) simulations as a method of ensuring EFT validity. The procedure imposes that, at the level of the simulation, the invariant mass of a W+W- pair MWW is less than the new physics scale . We compare this to two other methods, comparison bin by bin of dimension-6 and dimension-8 squared contributions and implementing a cut on data. We find that setting MWW < is not strict enough to ensure that the hierarchy of EFT operators is respected for dimension-6 and dimension-8 contributions. We also show that, even when using a stricter cut on MWW, due to different correlations between MWW and Meμ at different EFT orders, the bins in Meμ (the invariant mass of the leptons originating from W decays) used in an EFT fit may not truly be in the regime of EFT validity when performing a dimension-6 fit with MWW < . We also explore the correlations of three transverse mass observables: MT1, MT2 and MT3, finding that MT1 and MT3 follow the MWW distribution more closely than Meμ. We present sensitivity studies using both the MT3 distribution and Meμ distribution. We test implementing an experimental cut on MT3 in place of clipping the EFT simulation at MWW < . We finally comment that adding MWW < cuts only to the EFT simulation could be interpreted as modifying the SMEFT expansion by a form factor and could therefore impact the model independence of EFT fits under this procedure.