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Main Author: Rivas, Martin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.15502
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author Rivas, Martin
author_facet Rivas, Martin
contents The goal of the measurement of the magnetic moment of the electron $μ$, is to experimentaly determine the gyromagnetic ratio. The factor $g/2$ is computed by the accurate measurement of two frequencies, the spin precession frequency $ν_s$, and the cyclotron frequency $ν_c$, and is defined as $ν_s/ν_c=g/2$. These experiments are performed with a single electron confined inside a Penning trap. The existence of the electric dipole moment ${\bf d}_e$, involves the idea of an asymmetric charge distribution along the spin direction such that ${\bf d}_e=d_e{\bf S}/(\hbar/2)$. The energy shift $ΔU=2{d}_eE_{eff}$ of the interaction of the electric dipole of electrons with a huge effective electric field ${\bf E}_{eff}$, close to the nucleus of heavy neutral atoms or molecules, is calculated by a spin precession measurement and the value $d_e$ is determined. By using a classical model of a spinning electron, which satisfies Dirac's equation when quantized, we determine classically the time average value of the electric and magnetic dipole moments of this electron model when moving in a uniform magnetic field and in a Penning trap, with the same fields as in the real experiments, and obtain an estimated value of these dipoles. We compare these results with the experimental data and make some interpretation of the measured dipoles. The conclusion is that experiments do not measure what they purport to measure.
format Preprint
id arxiv_https___arxiv_org_abs_2406_15502
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Considerations about the measurement of the magnetic moment and electric dipole moment of the electron
Rivas, Martin
General Physics
65P99, 70B05, 49S05, 53A04,
J.2; G.1.7
The goal of the measurement of the magnetic moment of the electron $μ$, is to experimentaly determine the gyromagnetic ratio. The factor $g/2$ is computed by the accurate measurement of two frequencies, the spin precession frequency $ν_s$, and the cyclotron frequency $ν_c$, and is defined as $ν_s/ν_c=g/2$. These experiments are performed with a single electron confined inside a Penning trap. The existence of the electric dipole moment ${\bf d}_e$, involves the idea of an asymmetric charge distribution along the spin direction such that ${\bf d}_e=d_e{\bf S}/(\hbar/2)$. The energy shift $ΔU=2{d}_eE_{eff}$ of the interaction of the electric dipole of electrons with a huge effective electric field ${\bf E}_{eff}$, close to the nucleus of heavy neutral atoms or molecules, is calculated by a spin precession measurement and the value $d_e$ is determined. By using a classical model of a spinning electron, which satisfies Dirac's equation when quantized, we determine classically the time average value of the electric and magnetic dipole moments of this electron model when moving in a uniform magnetic field and in a Penning trap, with the same fields as in the real experiments, and obtain an estimated value of these dipoles. We compare these results with the experimental data and make some interpretation of the measured dipoles. The conclusion is that experiments do not measure what they purport to measure.
title Considerations about the measurement of the magnetic moment and electric dipole moment of the electron
topic General Physics
65P99, 70B05, 49S05, 53A04,
J.2; G.1.7
url https://arxiv.org/abs/2406.15502