Bottom quark electroweak dipole moments at a high-energy μ-collider

Abstract

We study the sensitivity of a high-energy μ-collider with center of mass energy in the multi--TeV range in testing electroweak dipole interactions of the b-quark. We parametrize the relevant deformations in the language of the Standard Model effective field theory, where the dominant modifications arise at the d=6 level. We analyse μ+ μ- b b and μ+ μ- b b h scatterings, performing a study at the level of a fast detector simulation. Owing the chiral structure of the dipole interaction, the study of the μ+ μ- b b h process allows to enforce the stronger bounds on the Wilson coefficients of the d=6 operators. The limits that can be obtained surpass present and future bounds from EW precision measurements also improving upon the ones arising from the measurement of the ΔF=1 transitions B Xsγ.