One-loop electroweak radiative corrections to polarized Bhabha   scattering

D. Bardin (1); A. Arbuzov (2; 3); S. Bondarenko (2); Ya. Dydyshka; (1); L. Kalinovskaya (1); L. Rumyantsev (1,4); R. Sadykov (1) ((1) Dzhelepov; Laboratory of Nuclear Problems; JINR; (2) Bogoliubov Laboratory of; Theoretical Physics; (3) Dubna university; (4) Institute of Physics; Southern; Federal University)

arXiv:1801.00125·hep-ph·July 11, 2018

One-loop electroweak radiative corrections to polarized Bhabha scattering

D. Bardin (1), A. Arbuzov (2, 3), S. Bondarenko (2), Ya. Dydyshka, (1), L. Kalinovskaya (1), L. Rumyantsev (1,4), R. Sadykov (1) ((1) Dzhelepov, Laboratory of Nuclear Problems, JINR, (2) Bogoliubov Laboratory of, Theoretical Physics, (3) Dubna university

PDF

TL;DR

This paper provides detailed theoretical predictions for polarized Bhabha scattering, including complete one-loop electroweak radiative corrections, and analyzes their impact on observables at different energies and polarization states.

Contribution

It presents the first comprehensive calculation of one-loop electroweak corrections to polarized Bhabha scattering including beam polarization effects.

Findings

01

Numerical results for asymmetry $A_{LR}$ at various energies.

02

Relative correction $\delta$ varies with energy and polarization.

03

Electroweak corrections significantly affect scattering observables.

Abstract

Theoretical predictions for Bhabha scattering observables are presented including complete one-loop electroweak radiative corrections. A longitudinal polarization of the initial beams is taken into account. Numerical results for the asymmetry $A_{L R}$ and the relative correction $δ$ are given for the set of the energy $E_{c m} = 250, 500, 1000$ ~GeV with various polarization degrees.

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.