30 years, some 700 integrals, and 1 dessert, or: Electroweak two-loop corrections to the Zbb vertex

Abstract

The one-loop corrections to the weak mixing angle 2θeffb derived from the Z bb vertex, are known since 1985. It took another 30 years to calculate the complete electroweak two-loop corrections to 2θeffb. The main obstacle was the calculation of the O(700) bosonic two-loop vertex integrals with up to three mass scales, at s=MZ2. We did not perform the usual integral reduction and master evaluation, but chose a completely numerical approach, using two different calculational chains. One method relies on publicly available sector decomposition implementations. Further, we derived Mellin-Barnes (MB) representations, exploring the publicly available MB suite. We had to supplement the MB suite by two new packages: AMBRE~3, a Mathematica program, for the efficient treatment of non-planar integrals and MBnumerics for advanced numerics in the Minkowskian space-time. Our preliminary result for LL2016, the "dessert", for the electroweak bosonic two-loop contributions to 2θeffb is: 2θeffb(α2, bos) = 2θW ~ b(α2,bos), with b(α2,bos) = -1.0276 x 10-4. This contribution is about a quarter of the corresponding fermionic corrections and of about the same magnitude as several of the known higher-order QCD corrections. The 2θeffb is now predicited in the Standard Model with a relative error of 10-4 [1].