【 摘 要 】

Central to palaeomagnetism and geophysics is the assumption that the time-averaged geomagnetic field is approximated by a geocentric axial dipole (GAD). In this paper, it is demonstrated through the use of a simple cap model that due to secular variation the time-averaged palaeointensity record will always have a smaller latitudinal dependency than a true GAD field. However, the simple cap model does not fully explain the behaviour of the palaeointensity database (averaged over 0 – 5 Ma) especially at high-latitudes. To investigate this dependency I use a Giant Gaussian Processes (GGP) model to estimate the contribution of permanent non-dipole features and determine their statistical significance. It was found that an axial quadrupole term between -5 to -10% of the GAD field combined with octupole term approximately -15% of the GAD field, best explained palaeointensity latitudinal behaviour. In particular, the octupole term with a sign opposite to that of the GAD, is required to describe the palaeointensity behaviour at high latitudes, i.e., > 60˚.

【 授权许可】

CC BY   

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