BEGIN:VCALENDAR VERSION:2.0 PRODID:-//CERN//INDICO//EN BEGIN:VEVENT SUMMARY:Corrections to dijet production cross section in Deep Inelastic Sc attering within the CGC formalism DTSTART;VALUE=DATE-TIME:20260416T081500Z DTEND;VALUE=DATE-TIME:20260416T091500Z DTSTAMP;VALUE=DATE-TIME:20260510T154049Z UID:indico-contribution-1944@events.ncbj.gov.pl DESCRIPTION:Speakers: Kacper Gosławski (National Centre for Nuclear Resea rch\, Warsaw)\nPerturbative calculations within the theory of Quantum Chro modynamics have always been challenging\, as it forces us to deal with com posite objects in asymptotic states during scattering processes. These obj ects\, called hadrons\, exhibit complex\, nonperturbative dynamics. Many f rameworks that describe hadron dynamics arose in the past several decades\ , verified extensively in experimental setups including different scatteri ng occurrences\, such as so-called Deep Inelastic Scattering. These framew orks\, however\, live in very different kinematical regimes. Their overlap and limitations are still being studied to the present day.\n\nDuring my presentation\, I am going to provide essential information on two such fra meworks\, namely factorization theorems and Color Glass Condensate. The fa ctorization theorems\, both collinear and transverse\, are based on splitt ing the cross section into perturbative\, process-dependent factors and no nperturbative\, but universal Parton Distribution Functions (PDFs). This f actorization work in the dilute\, or Bjorken\, limit of the hadron collisi on. The Color Glass Condensate is an effective theory describing hadrons i n the dense limit as a condensate of gluons. Ultimately\, I would like to show current status of the study on the overlap between these two formalis ms within next-to-eikonal (Neik) and back-to-back (or correlation) limit o f the dijet cross section through DIS and additional corrections that need to be addressed due to lowering the eikonal constraints.\n\nhttps://event s.ncbj.gov.pl/event/436/contributions/1944/ LOCATION:NCBJ Room 207 URL:https://events.ncbj.gov.pl/event/436/contributions/1944/ END:VEVENT END:VCALENDAR