English

QCD cusp anomalous dimension: current status

High Energy Physics - Phenomenology 2024-02-27 v4

Abstract

Calculation results for the HQET field anomalous dimension and the QCD cusp anomalous dimension, as well as their properties, are reviewed. The HQET field anomalous dimension γh\gamma_h is known up to 4 loops. The cusp anomalous dimension Γ(φ)\Gamma(\varphi) is known up to 3 loops, and its small-angle and large-angle asymptotics -- up to 4 loops. Some (but not all) color structures at 4 loops are known with the full φ\varphi dependence. Some simple contributions are known at higher loops. For the φ\varphi\to\infty asymptotics of Γ(φ)\Gamma(\varphi) (the light-like cusp anomalous dimension) and the φ2\varphi^2 term of the small-φ\varphi expansion (the Bremsstrahlung function), the N=4\mathcal{N}=4 SYM results are equal to the highest-weight parts of the QCD results. There is an interesting conjecture about the structure of Γ(φ)\Gamma(\varphi) which holds up to 3 loops; at 4 loops it holds for some color structures and breaks down for other ones. In cases when it holds it related highly non-trivial functions of φ\varphi, and it cannot be accidental; however, the reasons of this conjecture and its failures are not understood. The cusp anomalous dimension at Euclidean angle ϕπ\phi\to\pi is related to the static quark-antiquark potential due to conformal symmetry; in QCD this relation is broken by an anomalous term proportional to the β\beta function. Some new results are also presented. Using the recent 4-loop result for γh\gamma_h, here we obtain analytical expressions for some terms in the 4-loop on-shell renormalization constant of the massive quark field ZQosZ_Q^{\text{os}} which were previously known only numerically. We also present 2 new contribution to γh\gamma_h, Γ(φ)\Gamma(\varphi) at 5 loops and to the quark-antiquark potential at 4 loops.

Keywords

Cite

@article{arxiv.2212.05290,
  title  = {QCD cusp anomalous dimension: current status},
  author = {Andrey Grozin},
  journal= {arXiv preprint arXiv:2212.05290},
  year   = {2024}
}

Comments

54 pages; v2: 1 reference added, more detailed comment on [92]; v3: more information included, more references, 58 pages; v4: small text changes, 1 reference added

R2 v1 2026-06-28T07:29:01.386Z