Molten sodium mimics Earth's magnetic-field flipping
It has long been known that the Earth's magnetic field flips direction every quarter of a million years or so resulting in the north and south poles changing places. Now physicists in France have witnessed this phenomenon of magnetic-field reversal for the first time in the laboratory, by monitoring a 160-litre vat of swirling molten sodium. Their observations could eventually lead to a better understanding of "dynamo action", which is responsible for celestial bodies like the Earth being able to generate their own magnetic field (Europhys. Lett. 77 59001).
Dynamo action involves the flow of an electrically conducting fluid converting mechanical energy into magnetic energy. In the Earth, the fluid is the liquid iron of the outer core, which is in constant turbulent motion because of convection and the Earth's overall rotation. But such dynamos are difficult to study – particularly when one wants to understand its effects on the scale of the Earth. Experiments require massive amounts of energy to sustain large volumes of swirling molten metal, and it is almost impossible to model the Earth's inner dynamics computationally because of the huge number of variables involved.
 Swirling sodium |
Nicolas Mordant and colleagues from the École Normale Supérieure in Paris and other French institutions, however, have witnessed one of the peculiar effects of dynamo action for the first time. The team heated 160 litres of molten sodium to over 110 °C in a chamber, keeping the metal in highly turbulent motion using two counter-rotating propellers. Then they monitored the size and direction of the magnetic field and noticed a strange effect when they happened to set the speed of one propeller to 16 Hz and the other to 22 Hz – the magnetic field of the entire sample began to flip direction at irregular intervals ranging from 10 s to 180 s.
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