Lepton-nucleon interactions at the next-to-the-leading order

A. Aleksejevs; S. Barkanova

arXiv:0910.3664·nucl-th·February 11, 2010

Lepton-nucleon interactions at the next-to-the-leading order

A. Aleksejevs, S. Barkanova

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TL;DR

This paper discusses the importance of NLO effects in lepton-nucleon interactions for testing the Standard Model and details the computational tools used for evaluating electroweak and hadronic radiative corrections.

Contribution

It demonstrates the application of computational packages like FeynArts, FormCalc, Form, and LoopTools for calculating one-loop electroweak and hadronic radiative corrections.

Findings

01

Successful implementation of computational tools for NLO calculations.

02

Enhanced precision in electroweak and hadronic correction evaluations.

03

Support for precision tests of the Standard Model.

Abstract

Next-to-Leading-Order (NLO) effects play a crucial role in tests of the Standard Model (SM), and require careful theoretical evaluation. Electroweak physics, which has just entered the precision age, is an excellent place to search for new physics, but also requires considerable theoretical input. We show how we applied computational packages such as FeynArts, FormCalc, Form and LoopTools for the evaluation of one-loop electroweak and hadronic radiative corrections.

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