Structure Functions, the Gluon Density, and PQCD Tests
Abstract
Measurements of the proton structure function F2 for 0.11 < Q2 < 20000 GeV2 and 1.2 X 10-5 < x < 0.65 from ZEUS 1994-1997 measurements are presented. From ZEUS 1994 and 1995 F2 data the slopes d(F2)/d(ln Q2) at fixed x and d(ln F2)/d(ln(1/x)) for x < 0.01 at fixed Q2 are derived. For the latter E665 data are also used. The transition region in Q2 is explored using the simplest non-perturbative models and NLO QCD. The data at very low Q2 <= 0.65 GeV2 are described successfully by Regge theory. From a NLO QCD fit to ZEUS data the gluon density in the proton is extracted in the range 3 X 10-5 < x < 0.7. Data from NMC and BCDMS constrain the fit at large x. Assuming the NLO QCD description to be valid down to Q2 of 1 GeV2, it is found that the qqbar sea distribution is still rising at small x and the lowest Q2 values whereas the gluon distribution is strongly suppressed. Preliminary ZEUS 1996-1997 F2 measurements are also presented.
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