Factorization of the dijet cross section in hadron–hadron collisions

The factorization theorem for the dijet cross section is presented in hadron–hadron collisions with a cone-type jet algorithm. We also apply the beam veto to the beam jets consisting of the initial radiation. The soft-collinear effective theory is employed to see the factorization structure transpar...

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Bibliographic Details
Published inJournal of the Korean Physical Society Vol. 79; no. 7; pp. 613 - 630
Main Authors Chay, Junegone, Ha, Taewook, Kwon, Taehyun
Format Journal Article
LanguageEnglish
Published Seoul The Korean Physical Society 01.10.2021
Springer Nature B.V
한국물리학회
Subjects
Algorithms
Cross-sections
Divergence
Factorization
Logarithms
Mathematical and Computational Physics
Original Paper
Particle and Nuclear Physics
Particle collisions
Physics
Physics and Astronomy
Theoretical
물리학
Dijet
Renormalization group equation
Factorization
Resummation
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Summary:The factorization theorem for the dijet cross section is presented in hadron–hadron collisions with a cone-type jet algorithm. We also apply the beam veto to the beam jets consisting of the initial radiation. The soft-collinear effective theory is employed to see the factorization structure transparently when there are four distinct lightcone directions involved. There are various types of divergences such as the ultraviolet and infrared divergences. And when the phase space is divided to probe the collinear and the soft parts, there appears an additional divergence called rapidity divergence. These divergences are sorted out and we will show that all the infrared and rapidity divergences cancel, and only the ultraviolet divergence remains. It is a vital step to justify the factorization. Among many partonic processes, we take q q ¯ → g g as a specific example to consider the dijet cross section. The hard and the soft functions have nontrivial color structure, while the jet and the beam functions are diagonal in operator basis. The dependence of the soft anomalous dimension on the jet algorithm and the beam veto is diagonal in operator space, and is cancelled by that of the jet and beam functions. We also compute the anomalous dimensions of the factorized components, and resum the large logarithms to next-to-leading logarithmic accuracy by solving the renormalization group equation.
ISSN:0374-4884
1976-8524
DOI:10.1007/s40042-021-00266-0