Impact of nuclear dependence of R=σL/σT on antishadowing in nuclear structure functions

Abstract

We study the impact of the nuclear dependence of R=σL/σT on the extraction of the F2A/F2D and F1A/F1D structure function ratios from the data on the σA/σD cross section ratios. Guided by indications of the nuclear dependence of R from the world data, we examine selected sets of EMC, BCDMS, NMC and SLAC data and find that F1A/F1D < σA/σD ≤ F2A/F2D. In particular, we observe that the nuclear enhancement (antishadowing) for F1A/F1D in the interval 0.1 < x < 0.3 becomes significantly reduced or even disappears, which indicates that antishadowing is dominated by the longitudinal structure function FL. We also argue that precise measurements of nuclear modifications of R and FLA have the potential to constrain the poorly known gluon distribution in nuclei over a wide range of x.