Ettingshausen effect
The Ettingshausen effect (named for Albert von Ettingshausen) is a thermoelectric (or thermomagnetic) phenomenon that affects the electric current in a conductor when a magnetic field is present.[1]
Thermoelectric effect |
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Ettingshausen and his PhD student Walther Nernst were studying the Hall effect in bismuth, and noticed an unexpected perpendicular current flow when one side of the sample was heated. This is known as the Nernst effect. Conversely, when applying a current (along the y-axis) and a perpendicular magnetic field (along the z-axis) a temperature gradient appears along the x-axis. This is known as the Ettingshausen effect. Because of the Hall effect, electrons are forced to move perpendicular to the applied current. Due to the accumulation of electrons on one side of the sample, the number of collisions increases and a heating of the material occurs. This effect is quantified by the Ettingshausen coefficient P, which is defined as:
where dT/dx is the temperature gradient that results from the y-component Jy of an electric current density (in A/m2) and the z-component Bz of a magnetic field.
In most metals like copper, silver and gold P is on the order of 10−16 m·K/(T·A) and thus difficult to observe in common magnetic fields. In bismuth the Ettingshausen coefficient is several orders of magnitude larger because of its poor thermal conductivity, (7.5±0.3)×10−4 m·K/(T·A).[2]
See also
References
- v. Ettingshausen, A.; Nernst, W. (1886). "Ueber das Auftreten electromotorischer Kräfte in Metallplatten, welche von einem Wärmestrome durchflossen werden und sich im magnetischen Felde befinden" (PDF). Annalen der Physik und Chemie. 265 (10): 343–347. Bibcode:1886AnP...265..343E. doi:10.1002/andp.18862651010.
- Träutlein, Daniel; Bubek, Moritz; Müller, Markus; Thomay, Tim; Frank, Pascal; Beyer, Markus (2002). "Ettinghausen-Effekt an Bismuth" [Ettingshausen effect on Bismuth] (PDF). Projekt Praktikum (in German).