D. Indumathi
Published 1996-09-16Version 1
The recent high statistics NMC data on the Tin to Carbon structure function ratio seems to indicate, for the first time, a significant $Q^2$ dependence, especially at small values of Bjorken $x$, $x < 0.05$, and $Q^2 > 1 GeV^2$. Pure leading twist, perturbative QCD--based predictions, which are consistent with the free nucleon data, yield a fairly flat ratio with little or no $Q^2$ dependence. In view of this seeming contradiction, we re-examine the applicability of such a perturbative model to nuclear structure functions in such a kinematical regime. We find that the model is consistent with all data, within experimental errors, without any need for introducing additional higher twist contributions. The model correctly reproduces the $Q^2$ dependence of the Carbon structure function as well. We also critically examine the $Q^2$ dependence of the corresponding spin dependent structure functions.
Comments: 11 pages LaTeX, with 3 figures of encapsulated postscript files
Journal: Z.Phys. C76 (1997) 91-97
On the $A$ dependence of $R = σ_L/σ_T$ and the $Q^2$ dependence of Shadowing
About the $Q^2$ dependence of asymmetry $A_1$
A model for the $Q^2$ dependence of polarized structure functions
