Dark photon limits from magnetic fields and astrophysical plasmas

Dark photon limits from magnetic fields and astrophysical plasmas

Dark photons may kinetically mix with our photon and modify Maxwell's equations. We examine their impact on the Lorentz force acting on the plasma in astrophysical magnetospheres. Solving the relevant magnetohydrodynamic equations, we show that any dark photon effect is negligible. The existing...

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Veröffentlicht in:arXiv.org 2021-10
1. Verfasser: Marocco, Giacomo
Format: Artikel
Sprache:eng
Schlagworte:
Fluid flow
Jupiter
Jupiter probes
Lorentz force
Magnetohydrodynamic equations
Magnetohydrodynamics
Mathematical analysis
Maxwell's equations
Photons
Planetary magnetic fields
Planetary magnetospheres
Plasmas (physics)
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Zusammenfassung:Dark photons may kinetically mix with our photon and modify Maxwell's equations. We examine their impact on the Lorentz force acting on the plasma in astrophysical magnetospheres. Solving the relevant magnetohydrodynamic equations, we show that any dark photon effect is negligible. The existing bound on dark photons with a mass below \(10^{-14}\) eV, coming from Pioneer 10 observations of Jupiter's magnetosphere, relies on such an effect and is thus unreliable. To rectify this, we use recent Juno analyses to isolate any dark photon-induced modification of the Jovian magnetic field and hence place a numerically similar limit.
ISSN:2331-8422