Turbulent Liquid Metal Dynamo Experiments

 

Cary Forest

University of Wisconsin - Madison

 

 

 

The self-generation of magnetic fields in planets and stars--the dynamo effect--is a long-standing problem of magnetohydrodynamics and plasma physics.  Until recently, research on the self-excitation process has been primarily theoretical.   In this talk, I will begin with a tutorial on how magnetic fields are generated in planets and stars, describing the "Standard Model" of self-excitation known as the alpha-omega dynamo.  In this model, axisymmetric differential rotation can produce the majority of the magnetic field, but some non-axisymmetric, turbulence driven currents are also necessary.  Understanding the conversion of turbulent kinetic energy in the fluid motion into electrical currents and thus magnetic fields, is a major challenge for both experiments and theory at this time.  I will then report on recent results from a 1 meter diameter, spherical, liquid sodium dynamo experiment at the University of Wisconsin, in which the first clear evidence for these turbulence driven currents has been observed.