1. Testing the Amp\`ere-Maxwell law on the photon mass and Lorentz-Poincar\'e symmetry violation with MMS multi-spacecraft data
- Author
-
Spallicci, Alessandro D. A. M., Sarracino, Giuseppe, Randriamboarison, Orélien, Helayël-Neto, José A., and Dib, Abedennour
- Subjects
High Energy Physics - Phenomenology ,High Energy Physics - Theory ,Physics - Plasma Physics ,Physics - Space Physics - Abstract
We investigate possible evidence from Extended Theories of Electro-Magnetism by looking for deviations from the Amp\`ere-Maxwell law. The photon, main messenger for interpreting the universe, is the only free massless particle in the Standard-Model (SM). Indeed, the deviations may be due to a photon mass for the de Broglie-Proca (dBP) theory or the Lorentz Symmetry Violation (LSV) in the SM Extension (SME), but also to non-linearities from theories as of Born-Infeld, Heisenberg-Euler. With this aim, we have analysed six years of data of the Magnetospheric Multi-Scale mission, which is a four-satellite constellation, crossing mostly turbulent regions of magnetic reconnection and collecting about $95\%$ of the downloaded data, outside the solar wind. We examined 3.8 million data points from the solar wind, magnetosheath, and magnetosphere regions. In a minority of cases, for the highest time resolution burst data and optimal tetrahedron configurations drawn by the four spacecraft, deviations have been found ($2.2\%$ in modulus and $4.8\%$ in Cartesian components for all regions, but raising up in the solar wind alone to $20.8\%$ in modulus and $29.7\%$ in Cartesian components and up to 45.2\% in the extreme low-mass range). The deviations might be due to unaccounted experimental errors or, less likely, to non-Maxwellian contributions, for which we have inferred the related parameters for the dBP and SME cases. Possibly, we are at the boundaries of measurability for non-dedicated missions. We discuss our experimental results (upper limit of photon mass of $2.1 \times 10^{-51}$ kg, and of the LSV parameter $|\vec{k}^{\rm AF}|$ of $6 \times 10^{-9}$ m$^{-1}$), as the deviations in the solar wind, versus more stringent but model-dependent limits., Comment: Accepted by Eur. Phys. J. Plus. The combination of plasma and fundamental physics opens a new field. Results: A) An upper limit very close to last FRB observations; B) Many deviations from the Amp\`ere-Maxwell law in the solar wind due to experimental errors or to non-Maxwellian terms. Deviations question the model based upper limits by Ryutov (1997, 2007) adopted by the Particle Data Group
- Published
- 2022
- Full Text
- View/download PDF