Quasielastic axial-vector mass from experiments on neutrino-nucleus   scattering

Konstantin S. Kuzmin (Dubna; JINR); Vladimir V. Lyubushkin (Dubna,; JINR & Irkutsk State U.); Vadim A. Naumov (Dubna; JINR)

arXiv:0712.4384·hep-ph·November 26, 2008

Quasielastic axial-vector mass from experiments on neutrino-nucleus scattering

Konstantin S. Kuzmin (Dubna, JINR), Vladimir V. Lyubushkin (Dubna,, JINR & Irkutsk State U.), Vadim A. Naumov (Dubna, JINR)

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TL;DR

This paper reviews experimental neutrino-nucleus scattering data to refine the poorly known axial-vector mass of the nucleon, providing insights for neutrino interaction models.

Contribution

It compiles and analyzes a wide range of experimental data to improve the estimation of the nucleon's axial-vector mass.

Findings

01

Refined the value of the axial-vector mass based on experimental data.

02

Compared results across different nuclear targets and experiments.

03

Provided updated parameters for neutrino interaction models.

Abstract

We analyze available experimental data on the total and differential charged-current cross sections for quasielastic neutrino and antineutrino scattering off nucleons, measured with a variety of nuclear targets in the accelerator experiments at ANL, BNL, FNAL, CERN, and IHEP, dating from the end of sixties to the present day. The data are used to adjust the poorly known value of the axial-vector mass of the nucleon.

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Taxonomy

TopicsNeutrino Physics Research · Particle physics theoretical and experimental studies · Astrophysics and Cosmic Phenomena