We address a long standing problem concerning the scale behaviour of parton densities in the low x, low $$Q^2$$ domain. We emphasize the important role of absorptive corrections at low x and use knowledge of diffractive deep inelastic scattering to exclude the absorptive effect from conventional deep inelastic data. In this way we obtain a significantly different low x behaviour of the gluon density, which is now much better described by linear DGLAP evolution. Accounting also for a second power correction, which arises from the freezing of $$\alpha _s$$ at low $$Q^2$$, leads to an essentially flat behaviour of the low x gluon density
AbstractWe study the effect of absorptive corrections due to parton recombination on the parton dist...
Abstract. We obtain a solution of the DGLAP equation for the gluon at low x first by expanding the g...
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...
Abstract We address a long standing problem concerning the scale behaviour of parton densities in th...
We address a long standing problem concerning the scale behaviour of parton densities in the low x, ...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
AbstractWe study the effect of absorptive corrections due to parton recombination on the parton dist...
We present an analysis of the current methods of the approximate determination of the gluon density ...
We present an analysis of the current methods of the approximate determination of the gluon density ...
We present an analysis of the current methods of approximate determination of the gluon density $G(x...
The low $x$ behaviour of the gluon density $xg(x,\mu^2)$ at scale $\mu^2=2.4$ GeV$^2$ is determined ...
We study the evolution of parton distributions down to low scales by considering several of their Me...
We study the evolution of parton distributions down to low scales by considering several of their Me...
AbstractWe study the effect of absorptive corrections due to parton recombination on the parton dist...
Abstract. We obtain a solution of the DGLAP equation for the gluon at low x first by expanding the g...
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...
Abstract We address a long standing problem concerning the scale behaviour of parton densities in th...
We address a long standing problem concerning the scale behaviour of parton densities in the low x, ...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
We study the effect of absorptive corrections due to parton recombination on the parton distribution...
AbstractWe study the effect of absorptive corrections due to parton recombination on the parton dist...
We present an analysis of the current methods of the approximate determination of the gluon density ...
We present an analysis of the current methods of the approximate determination of the gluon density ...
We present an analysis of the current methods of approximate determination of the gluon density $G(x...
The low $x$ behaviour of the gluon density $xg(x,\mu^2)$ at scale $\mu^2=2.4$ GeV$^2$ is determined ...
We study the evolution of parton distributions down to low scales by considering several of their Me...
We study the evolution of parton distributions down to low scales by considering several of their Me...
AbstractWe study the effect of absorptive corrections due to parton recombination on the parton dist...
Abstract. We obtain a solution of the DGLAP equation for the gluon at low x first by expanding the g...
We derive the complete Wilson renormalization group equation which governs the evolution of the gluo...