Speaker
Description
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. Focusing on inclusive dijet production in deeply inelastic electron-nucleus, we contribute to these efforts in two ways. First, we quantify the size of kinematic twist and genuine higher twist contributions included in the saturation framework and absent in the TMD framework [1,2]. Second, we perform the first complete next-to-leading order (NLO) computation of inclusive dijets within the Color Glass Condensate (CGC) [3]. I will also comment on implications of our results to the physics of ultra-peripheral collisions at RHIC and the LHC.
References:
[1] Multi-gluon correlations and evidence of saturation from dijet measurements at an EIC. H. Mäntysaari, N. Mueller, F. Salazar, B. Schenke.
PRL 124 (2020) 11, 112301 [arXiv:1912.05586]
[2] The importance of kinematic twists and genuine saturation effects in dijet production at the EIC. R. Boussarie, H. Mäntysaari, F. Salazar, B. Schenke.
JHEP 09 (2021) 178 [arXiv:2106.11301]
[3] Dijet impact factor in DIS at next-to-leading order in the Color Glass Condensate. P. Caucal, F. Salazar, R. Venugopalan.
JHEP 11 (2021) 222 [arXiv:2108.06347]
