Original version
Physical Review D. 2020, 102 (9):095009, DOI: https://doi.org/10.1103/PhysRevD.102.095009
Abstract
I consider contributions to the neutron electric dipole moment within two-Higgs-doublet models which allow for small flavor changing neutral Higgs couplings. In a previous paper, I considered flavor changing interactions for the Standard Model Higgs boson to first order in the flavor changing coupling. In that paper I found that the obtained value of the neutron electric dipole moment was below the present experimental limit, given previous restrictions on such couplings. Because this was an effective theory, the result depended on an ultraviolet cut off Λ, parametrized as ln(Λ2). In the present paper I demonstrate that, when going to two-Higgs-doublet models, the result stays the same as in the previous paper, up to M2SM/M2H corrections, where MSM is the mass of the top quark or the W boson. MH is the mass of the heavy neutral scalar Higgs boson H which is much heavier than the light neutral Higgs boson h with mass Mh. In the limit M2H≫M2h, the ln(Λ2) behavior in the previous paper is replaced by ln(˜MH2), where ˜MH is of order MH. I also explain how some divergences due to exchange of the pseudoscalar Higgs A are canceled by similar contributions from the scalar heavy Higgs H, and that these contributions, and finite contributions from A exchange, are suppressed.