[1] A numerical dynamo with time variable core heat flow and inner core growth rate links the thermal state of the Earth’s core to the long term trends in the Geomagnetic Polarity Time Scale (GPTS). Increasing core heat flow over 100 Myr drives the numerical dynamo from a superchron state to reversing behavior, whereas a similar decrease in core heat flow produces a decrease in reversal frequency, driving the dynamo back into a superchron. The polarity sequence, including more than 400 reversals and two superchrons, compares favorably with the GPTS, as does the dynamo frequency spectrum. We find that core heat flow is positively correlated with polarity reversal frequency, dipole variability, and the relative strength of the non‐dipole fiel...
The asymmetric shape of reversals of the Earth's magnetic field indicates a possible connection with...
International audienceAre the presently inverted large scale core velocity fields enough to explain ...
33 pagesInternational audienceThe flow of liquid metal inside the Earth's core produces the geomagne...
International audienceWe use polarity reversal systematics from numerical dynamos to quantify the hy...
International audienceA striking feature of many natural magnetic fields generated by dynamo action ...
Long intervals of single geomagnetic polarity (superchrons) reflect geodynamo processes, driven by c...
© 2016, Pleiades Publishing, Ltd.The data that describe the long-term reversing behavior of the geod...
International audienceFrom a suite of 56 chemically-driven dynamo simulations with aspect ratio (inn...
We use numerical dynamo models with heterogeneous core-mantle boundary (CMB) heat flux to show that ...
International audienceAlthough it is known that the geodynamo has been operating for at least 3.2 Ga...
International audienceWe investigate the phenomenology of reversals predicted by a multiscale αω dyn...
The Earth's internal magnetic field varies on timescales of months to billions of years. The field i...
The asymmetric shape of reversals of the Earth's magnetic field indicates a possible connection with...
International audienceAre the presently inverted large scale core velocity fields enough to explain ...
33 pagesInternational audienceThe flow of liquid metal inside the Earth's core produces the geomagne...
International audienceWe use polarity reversal systematics from numerical dynamos to quantify the hy...
International audienceA striking feature of many natural magnetic fields generated by dynamo action ...
Long intervals of single geomagnetic polarity (superchrons) reflect geodynamo processes, driven by c...
© 2016, Pleiades Publishing, Ltd.The data that describe the long-term reversing behavior of the geod...
International audienceFrom a suite of 56 chemically-driven dynamo simulations with aspect ratio (inn...
We use numerical dynamo models with heterogeneous core-mantle boundary (CMB) heat flux to show that ...
International audienceAlthough it is known that the geodynamo has been operating for at least 3.2 Ga...
International audienceWe investigate the phenomenology of reversals predicted by a multiscale αω dyn...
The Earth's internal magnetic field varies on timescales of months to billions of years. The field i...
The asymmetric shape of reversals of the Earth's magnetic field indicates a possible connection with...
International audienceAre the presently inverted large scale core velocity fields enough to explain ...
33 pagesInternational audienceThe flow of liquid metal inside the Earth's core produces the geomagne...