# Solar System and Atomic Stronger Bounds on Exotic Dyonic Matter and   Non-associative Quantum Mechanics

**Authors:** Andrea Addazi, Antonino Marciano

arXiv: 1905.06807 · 2019-05-17

## TL;DR

This paper establishes tighter constraints on exotic dyonic matter and non-associative quantum mechanics by analyzing planetary magnetic field measurements, surpassing previous atomic-level bounds.

## Contribution

It derives significantly stronger bounds on magnetic monopole charges using planetary magnetic field data, refining previous atomic-based limits and addressing electron charge assumptions.

## Key findings

- Planetary magnetic field measurements set new bounds on monopole charges.
- Bounds are several orders of magnitude stronger than atomic level limits.
- Proper estimation of proton magnetic charge requires considering electron monopole charge.

## Abstract

We derive stronger bounds on the magnetic monopole charge of the proton, and hence on non-associative quantum mechanics from measurements of the magnetic fields of the Earth, the Moon and Mars. Limits are several orders of magnitude stronger than the ones inferred from the Hydrogen atomic levels, assuming that electrons do not retain a magnetic monopole charge. Conversely, we show how to estimate bounds on the magnetic charge of a proton correctly, when the magnetic monopole charge of the electron is taken into account.

## Full text

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## Figures

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## References

9 references — full list in the complete paper: https://tomesphere.com/paper/1905.06807/full.md

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Source: https://tomesphere.com/paper/1905.06807