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Main Authors: Wang, X. G., Thomas, A. W.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.07327
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author Wang, X. G.
Thomas, A. W.
author_facet Wang, X. G.
Thomas, A. W.
contents Precise measurements of electron and positron scattering, including parity violation, offer great promise in the search for physics beyond the Standard Model. In this context it is crucial to understand the corrections which might arise from charge symmetry violation, as well as the less well known strange and charm quark distributions. Our analysis, using state of the art parton distributions, suggests that these contributions lead to corrections in the extraction of the weak couplings $g^{eq}_{AV}$ and $g^{eq}_{VA}$ of the order $(1-2)\%$, while they are as large as $4\%$ for $g^{eq}_{AA}$, at a typical scale of $Q^2 = 10\ {\rm GeV}^2$. These results underline the importance of carrying out high precision measurements, which will not only provide information on physics beyond the Standard Model but also reduce the current uncertainties on our knowledge of the strange and charm quark distributions in the proton.
format Preprint
id arxiv_https___arxiv_org_abs_2403_07327
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Challenges in the extraction of physics beyond the Standard Model from electron scattering
Wang, X. G.
Thomas, A. W.
High Energy Physics - Phenomenology
High Energy Physics - Experiment
Nuclear Experiment
Precise measurements of electron and positron scattering, including parity violation, offer great promise in the search for physics beyond the Standard Model. In this context it is crucial to understand the corrections which might arise from charge symmetry violation, as well as the less well known strange and charm quark distributions. Our analysis, using state of the art parton distributions, suggests that these contributions lead to corrections in the extraction of the weak couplings $g^{eq}_{AV}$ and $g^{eq}_{VA}$ of the order $(1-2)\%$, while they are as large as $4\%$ for $g^{eq}_{AA}$, at a typical scale of $Q^2 = 10\ {\rm GeV}^2$. These results underline the importance of carrying out high precision measurements, which will not only provide information on physics beyond the Standard Model but also reduce the current uncertainties on our knowledge of the strange and charm quark distributions in the proton.
title Challenges in the extraction of physics beyond the Standard Model from electron scattering
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
Nuclear Experiment
url https://arxiv.org/abs/2403.07327