TL;DR
This paper explores forward jet production in high energy collisions, focusing on Mueller-Navelet jets as a signature of parton saturation and geometric scaling behavior in dense hadronic environments.
Contribution
It introduces the concept of using Mueller-Navelet jets to identify parton saturation effects through momentum decorrelation and geometric scaling.
Findings
Strong momentum decorrelation observed in Mueller-Navelet jets
Evidence supporting geometric scaling behavior in dense hadronic wavefunctions
Potential signature of parton saturation in high energy processes
Abstract
We discuss the production of forward jets in high energy processes where one probes a dense hadronic wavefunction. In particular, and as a signature of parton saturation, we discuss the possibility of a strong momentum decorrelation in Mueller-Navelet jets which leads to a geometric scaling behavior.
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