Muon Anomalous Magnetic Moment in Noncommutative Space-Time

Abstract

The explanation of the muon anomalous magnetic moment (μ-AMM) requires new physics beyond the Standard Model. In this work, we investigate the effects of noncommutative space-time on the μ-AMM within the Seiberg-Witten map framework, analyzing both tree-level and loop-level diagrams. Additionally, we examine the μ-AMM by studying the scattering cross-section of electron-positron annihilation into muon-antimuon pairs (e- e+ → μ- μ+ ) . Previous studies have explored the implications of noncommutative space-time through various processes, leading to different bounds on the noncommutative parameter θμ. Our analysis estimates θμ (43 \, TeV)-2 for both tree-level and loop-level contributions when noncommutative space-time accounts for the entire observed μ-AMM. If noncommutative effects are responsible for only 10\% of the μ-AMM, the constraint relaxes to approximately (136 \, TeV)-2. Furthermore, by comparing the noncommutative cross-section of e- e+ → μ- μ+ with experimental data, we derive an approximate bound of (90 \, TeV)-2 which corresponds to a 23\% contribution to the μ-AMM.

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