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v3.3.2
The two Higgs doublet model (2HDM) with natural flavour
conservation and a real scalar potential (for CP conservation) is a very
popular phenomenological and experimental benchmark model. A couple of
years ago Fontes et al. pointed out that there is no evident reason why
the CP violation within the CKM matrix should not "leak" into the scalar
potential through divergent radiative corrections, thereby rendering the
real 2HDM theoretically inconsistent. Unexpectedly, however, their direct
calculation of the most divergent piece of the 3-loop tadpole for the
pseudoscalar yielded zero.
We consider this issue working in the unbroken phase of the real 2HDM with
natural flavour conservation. We identify two necessary ingredients for
such a radiative leak, and show that they first appear together only at
6-loop order in the unbroken phase. Surprisingly though, we are able to
show through a diagrammatic argument that the most divergent piece of the
imaginary part of the relevant diagrams also winds up vanishing at 6
loops. Along the way we point out through simple symmetry arguments that
the version of the 2HDM in which natural flavour conservation is
implemented using a softly-broken U(1) Peccei-Quinn-type symmetry (in
place of the usual Z_2) is guaranteed to be safe from leaks of CP
violation.