Amazing stuff!
"In a new Nature Physics paper, researchers report the first experimental observation of the transverse Thomson effect, a key thermoelectric phenomenon that has eluded scientists since it was predicted over a century ago. ...
The Thomson effect causes volumetric heating or cooling when an electric current and a temperature gradient flow in the same direction through a conductor. ...
The researchers selected a bismuth antimony alloy (Bi88Sb12) for their experiments, a material known for its strong Nernst effect around room temperature. ..."
From the abstract:
"The Thomson effect refers to volumetric heating or cooling in a conductor when a charge current and a temperature gradient are applied in the same direction. Similarly, it is expected that a conductor will be heated or cooled when a charge current, a temperature gradient and a magnetic field are applied in orthogonal directions. This phenomenon, referred to as the transverse Thomson effect, has not been experimentally observed.
Here we report the observation of this effect in a semimetallic Bi88Sb12 alloy with thermoelectric imaging. We can switch between heating or cooling by changing the direction of the magnetic field.
Our experiments and analyses reveal the essential difference between the conventional and transverse Thomson effects. Whereas the former depends solely on the temperature derivative of the Seebeck coefficient, the latter depends on the temperature derivative and the magnitude of the Nernst coefficient. The observation of the transverse Thomson effect provides a new concept for active thermal management technologies."
Observation of the transverse Thomson effect (no public access)
Observation of transverse Thomson effect (preprint, open access)
Thermoelectric effects.
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