Electroweak Precision Fit and New Physics in light of W Boson Mass

Abstract

The W boson mass is one of the most important electroweak precision observables for testing the Standard Model or its extensions. The very recent measured W boson mass at CDF shows about 7σ deviations from the SM prediction, which may challenge the internal consistency of the SM. By performing the global electroweak fit with the new W-boson, we present the new values of the oblique parameters: S = 0.06 0.10, T= 0.11 0.12, U=0.13 0.09, or S=0.14 0.08, T= 0.26 0.06 with U =0 and the corresponding correlation matrices, which strongly indicates the need for the non-degenerate multiplets beyond the SM. As a proof-of-concept, we show that the new results can be accommodated in the two-Higgs doublet model, where the charged Higgs boson has to be either heavier or lighter than both two heavy neutral Higgs bosons. Therefore, searching for these non-SM Higgs bosons will provide a complementary way to test the new physics for the W boson mass anomaly.