What question did this study set out to answer?

This research aims to investigate how Higgs and diboson production at the LHC can constrain flavor-physics operators.

March 15, 2026Open Access

Flavor constraints from pp → Vh and pp → WV at the LHC

Key Points

This research aims to investigate how Higgs and diboson production at the LHC can constrain flavor-physics operators.
Analyzed pp → Vh and pp → WV processes within an Effective Field Theory framework.
Derived helicity amplitudes for high-energy interactions.
Compared LHC constraints with electroweak precision data and flavor limits from particle decays.
Demonstrated LHC processes' sensitivity to non-trivial flavor structures.
Provided complementary flavor-physics constraints based on available data.
Projected HL-LHC capabilities to probe viable EFT scenarios regarding the Cabibbo angle discrepancies.

Abstract

A bstract We investigate the potential of associated Higgs pp → Vh and diboson production pp → WV channels at the LHC (with V = W , Z ) to constrain flavor-physics operators. Within an Effective Field Theory (EFT) framework, we derive the helicity amplitudes for these processes at high energies and identify the leading contributions from dimension-six operators involving different quark flavors. Using available LHC data, we show that these processes are sensitive to non-trivial flavor structures and provide complementary constraints to those from low-energy observables. We illustrate this synergy through an explicit comparison between our LHC bounds with electroweak precision data, and with flavor limits derived from charged-current pion and kaon decays. In particular, we show that our HL-LHC projections can probe viable EFT scenarios proposed to accommodate the discrepancies in the extraction of the Cabibbo angle.

Flavor constraints from pp → Vh and pp → WV at the LHC

Key Points

Abstract

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