Abstract
We present the effects of vector-like fermions (VLF) on the stability of the Higgs electroweak vacuum, using the renormalization group improved Higgs effective potential. We review the calculation of the one-loop beta-functions of the standard model couplings, paying particular attention to the fermion contributions. From this, we derive the VLF contributions to the beta-functions. We also include the significant two-loop contributions to the beta-functions. Using these beta-functions we determine the scale at which the effective Higgs quartic-coupling becomes zero and goes negative, signaling vacuum instability. We find that for certain VLF masses and Yukawa couplings, the Higgs quartic stays positive for field values all the way up to the Planck scale, implying that the meta-stable vacuum of the standard model can be rendered absolutely stable if VLFs are present with certain parameters. For other values of VLF parameters, the Higgs vacuum is metastable as in the standard model. For cases where the vacuum is metastable, we compute the probability of quantum tunneling from the false electroweak vacuum into a deeper true vacuum in our Hubble volume by numerically solving for the bounce configuration in Euclidean space-time and computing the bounce action for it. We compare our numerical solution with the analytical approximation for the bounce action commonly used in the literature and comment on when the latter may be used.
Highlights
The stability of the electroweak (EW) vacuum can be studied using the Higgs effective potential
We study the stability of the electroweak vacuum in the presence of new vectorlike fermions
We work with the one-loop renormalization group improved Higgs effective potential, identifying the Higgs field value h ≡ μ
Summary
The stability of the electroweak (EW) vacuum can be studied using the Higgs effective potential (for a review, see Ref. [1]). Many such BSM extensions include vectorlike fermions (VLFs) that couple to the Higgs and are often the lightest BSM states They have a significant effect on EW vacuum stability. Some examples of such models that include vectorlike fermions are in the following contexts: the gauge hierarchy problem such as anti-de Sitter–space/composite-Higgs models in Refs. If the lifetime in the EW vacuum is comparatively much larger than the age of the Universe, it is metastable and phenomenologically acceptable To this end, we study some simple VLF extensions of the SM, where the VLFs are either in the trivial or fundamental representations of SUð3Þ, SUð2Þ, and Uð1Þ, and demonstrate their effects on Higgs vacuum stability.
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