The aim of this work is to investigate the time spectral features of the main geomagnetic field fluctuations as measured on the Earths surface in connection with a nontraditional turbulent dynamics of the fluid motions in the outer layers of the Earths liquid core. The average geomagnetic field spectrum is found to be a power law, characterized by a spectral exponent alpha =11/3, on time scales longer than 5 yr. We discuss the spectral exponent in connection with an intense magnetic field in the Earths core and with a vortex coalescence process in a regime of drift-wave turbulence.
Fluid motions in the Earth's core inferred from time spectral features of the geomagnetic field
2002
Abstract
The aim of this work is to investigate the time spectral features of the main geomagnetic field fluctuations as measured on the Earths surface in connection with a nontraditional turbulent dynamics of the fluid motions in the outer layers of the Earths liquid core. The average geomagnetic field spectrum is found to be a power law, characterized by a spectral exponent alpha =11/3, on time scales longer than 5 yr. We discuss the spectral exponent in connection with an intense magnetic field in the Earths core and with a vortex coalescence process in a regime of drift-wave turbulence.File in questo prodotto:
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