2,887 research outputs found
Two-loop renormalization group restrictions on the standard model and the fourth chiral family
In the framework of the two-loop renormalization group, the global profile of
the Standard Model (SM) in its full parameter space is investigated up to the
scale of the gauge singularity. The critical Higgs masses bordering the strong
coupling, unstable and the safe regions are explicitly found. Restrictions on
the Higgs boson mass as a function of a cutoff scale are obtained from the
stability of the electroweak vacuum and from the absence of the strong coupling
both in the Higgs and Yukawa sectors. The cutoff being equal to the Plank scale
requires the Higgs mass to be M=(161.3+-20.6)+4-10 GeV and M>=140.7+-10 GeV,
where the M corridor is the theoretical one and the errors are due to the top
mass uncertainty.
The SM two-loop beta-functions are generalized to the massive neutrino case.
Modification of the two-loop global profile of the SM extended by one new
chiral family is studied, and bounds on the masses of the family are found. The
requirement of self-consistency of the perturbative SM as an underlying theory
up to the Planck or GUT scale excludes the fourth chiral family with the mass
up to 250 GeV depending on the Higgs mass and the cutoff scale. Under precision
experiment restriction M<=200 GeV, the fourth chiral family, taken alone, is
excluded. Nevertheless a pair of the chiral families constituting the
vector-like one could still exist.Comment: 22 LaTeX pages, 17 PostScript figures. In the 2nd version of the
e-print a typo in the 2-loop beta function of a charged lepton is correcte
Black Hole Shadows: How to Fix the Extended Gravity Theory
The first images of black hole shadows open new possibilities to develop
modern extended gravity theories. We discuss the shadow calculations in
non-rotating case both when and . We demonstrate the application to few different models: Horndesky
theory with Gauss-Bonnet invariant, loop quantum gravity and conformal gravity.
The difference of these theories from shadow models with the theory of general
relativity is shown. In addition we show that when the rotation is taken into
account the requirements to the observational accuracy decrease
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