Simple stochastic model for geomagnetic excursions and reversals reproduces the temporal asymmetry of the axial dipole moment.
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2021
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United States National Academy of Sciences (United States)
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Molina-Cardín, Alberto, et al. «Simple Stochastic Model for Geomagnetic Excursions and Reversals Reproduces the Temporal Asymmetry of the Axial Dipole Moment». Proceedings of the National Academy of Sciences, vol. 118, n.o 10, marzo de 2021, p. e2017696118, https://doi.org/10.1073/pnas.2017696118
Abstract
We present a simple model for the axial dipole moment (ADM) of the geomagnetic field based on a stochastic differential equation for two coupled particles in a biquadratic potential, subjected to Gaussian random perturbations. This model generates aperiodic reversals and excursions separated by stable polarity periods. The model reproduces the temporal asymmetry of geomagnetic reversals, with slower decaying rates before the reversal and faster growing rates after it. This temporal asymmetry is possible because our model is out of equilibrium. The existence of a thermal imbalance between the two particles sets a preferential sense for the energy flux and renders the process irreversible.