The Verwey transition is a low-temperature phase transition in the mineral magnetite associated with changes in its magnetic, electrical, and thermal properties. It typically occurs near a temperature of 120 K but is observed at a range of temperatures between 80 and 125 K, although the spread is generally tight around 118-120 K in natural magnetites. Upon warming through the Verwey transition temperature (TV), the magnetite crystal lattice changes from a monoclinic structure insulator to the metallic cubic inverse spinel structure that persists at room temperature. The phenomenon is named after Evert Verwey, a Dutch chemist who first recognized, in the 1940s, the connection between the structural transition and the changes in the physical properties of magnetite. This was the first metal-insulator transition to be found.
The Verwey transition is near in temperature, but distinct from, a magnetic isotropic point in magnetite, at which the first magnetocrystalline anisotropy constant changes sign from positive to negative.
The temperature and physical expression of the Verwey transition are highly sensitive to the stress state of magnetite and the stoichiometry. Non-stoichiometry in the form of metal cation substitution or partial oxidation can lower the transition temperature or suppress it entirely.
See also
- Morin transition – Magnetic phase transition in α-Fe2O3 hematite
References
- ^ Walz, Friedrich (15 March 2002). "The Verwey transition - a topical review". Journal of Physics: Condensed Matter. 14 (12): R285–R340. doi:10.1088/0953-8984/14/12/203. S2CID 250773238.
- Jackson, M.J.; Moskowitz, B. (2021). "On the distribution of Verwey transition temperatures in natural magnetites". Geophysical Journal International. 224 (2): 1314–1325. doi:10.1093/gji/ggaa516.
- Kosterov, Andrei (2007). "Magnetic properties, low-temperature". In Gubbins, David; Herrero-Bervera, Emilio (eds.). Encyclopedia of geomagnetism and paleomagnetism. Dordrecht: Springer. pp. 515–525. ISBN 9781402044236.
- Miller, Sandi (19 March 2020). "Dancing electrons solve a longstanding puzzle in the oldest magnetic material". Space Daily. Archived from the original on 21 March 2020. Retrieved 2 September 2021.
- ^ Aragón, Ricardo; Buttrey, Douglas J.; Shepherd, John P.; Honig, Jurgen M. (1 January 1985). "Influence of nonstoichiometry on the Verwey transition". Physical Review B. 31 (1): 430–436. Bibcode:1985PhRvB..31..430A. doi:10.1103/PhysRevB.31.430. PMID 9935445.
- Özdemir, Özden; Dunlop, David J.; Moskowitz, Bruce M. (20 August 1993). "The effect of oxidation on the Verwey transition in magnetite". Geophysical Research Letters. 20 (16): 1671–1674. Bibcode:1993GeoRL..20.1671O. doi:10.1029/93GL01483. hdl:11299/175055.