5 research outputs found
Radiative corrections to the structure functions and sum rules in polarized DIS
The one-loop NLO radiative corrections to the observables in polarized DIS
using assumption that a quark is an essential massive particle are considered.
If compared with classical QCD formulae the obtained results are identical for
the unpolarized and different for polarized sum rules, that can be explained as
the influence of the finite quark mass effects on NLO QCD corrections. The
explicit expression for one-loop NLO QCD contribution to the structure function
g_2 is presented.Comment: 6 pages,1 figure. Talk given at the International Workshop "Symmetry
And Spin" - PRAHA-SPIN'9
Hard Corrections as a Probe of the Symmetry Breaking Sector
Non-decoupling effects related to a large affecting non-oblique
radiative corrections in vertices () and boxes (- mixing
and ) are very sensitive to the particular mechanism of spontaneous
symmetry breaking. We analyze these corrections in the framework of a chiral
electroweak standard model and find that there is only one operator in the
effective lagrangian which modifies the longitudinal part of the boson
without touching the oblique corrections. The inclusion of this operator
affects the vertex, the - mixing and the CP-violating
parameter , generating interesting correlations among the hard
corrections to these observables, for example, the maximum
vertex correction allowed by low energy physics is about one
percent.Comment: LaTex, 8 pages, 1 postscript figure include