Thermal Hall effect

From Wikipedia, the free encyclopedia
  (Redirected from Righi–Leduc effect)
Jump to: navigation, search

The thermal Hall effect is the thermal analog of the Hall effect. Here, a thermal gradient is produced across a solid instead of an electric field. When a magnetic field is applied, an orthogonal temperature gradient develops.

For conductors, a significant portion of the thermal current is carried by the electrons. In particular, the Righi–Leduc Effect[1] describes the heat flow resulting from a perpendicular temperature gradient and vice versa, and the Maggi–Righi–Leduc effect describes changes in thermal conductivity when placing a conductor in a magnetic field.

A thermal Hall effect has also been measured in a paramagnetic insulator and dubbed the "phonon Hall effect."[2] In this case, there are no charged currents in the solid so the magnetic field cannot exert a Lorentz force. An analogous thermal Hall effect for neutral particles exists in polyatomic gases (known as the Senftleben-Beenakker effect).

Measurements of the thermal Hall conducitivity are used to distinguish between the electronic and lattice contributions to thermal conductivity. These measurements are especially useful when studying superconductors.

See also[edit]

References[edit]

  1. ^ After the Italian physicist Augusto Righi (1850–1920) and the French physicist Sylvestre Anatole Leduc (1856–1937). See:
    Lalena, John N.; Cleary, David A. (2010). Principles of Inorganic Materials Design (2nd ed.). John Wiley and Sons. p. 272. ISBN 0-470-40403-5. Retrieved 2011-04-25. 
  2. ^ Strohm, C.; G. L. J. A. Rikken, and P. Wyder1 (October 7, 2005). "Phenomenological Evidence for the Phonon Hall Effect". Physical Review Letters 95 (15): 155901. Bibcode:2005PhRvL..95o5901S. doi:10.1103/PhysRevLett.95.155901. PMID 16241740.