[RBRC seminar] Cancelled: Inclusive dijet production in DIS at NLO in the CGC
by
Due to scheduling conflict (SBU's Chirality workshop), the talk will be rescheduled.
The search for gluon saturation is one of the major goals of the future Electron-Ion Collider (EIC). Significant progress has been made in advancing saturation physics to a precision science as we prepare for the EIC era. We contribute to these efforts by performing the first complete next-to-leading order (NLO) computation of inclusive dijet production in deeply inelastic electron-nucleus scattering at small-x within the Color Glass Condensate (CGC).
In this talk, I will introduce the basic elements of this computation by briefly reviewing the leading order result. Next, I will detail the main steps for calculating one-loop contributions. I will demonstrate the cancellation of all UV and IR divergences. Then, I will show that the rapidity singularity in the phase space of the emitted gluon can be absorbed into the JIMWLK evolution. We thus isolate the so-called impact factor, a necessary result to obtain reliable theoretical predictions for the EIC. I will conclude by outlining the future directions of our work.
This talk will be based on work in collaboration with Paul Caucal and Raju Venugopalan, arXiv:2108.06347 [hep-ph].
https://bnl.zoomgov.com/j/1601581422?pwd=dkdxVFgyRTZESUxIbUZDN1RmRURPQT09