Matteucci effect is one of the magnetomechanical effects, which is thermodynamically inverse to Wiedemann effect.[1] This effect was described by Carlo Matteucci in 1858. It is observable in amorphous wires with helical domain structure, which can be obtained by twisting the wire, or annealing under twist. The effect is most distinct in the so-called 'dwarven alloys' (called so because of the historical cobalt element etymology), with cobalt as main substituent.[2][3]

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References

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  1. ^ Bozorth, R. (1951). Ferromagnetism. Van Nostrand.
  2. ^ Vazquez, M. (1996). "A soft magnetic wire for sensor applications". Journal of Physics D: Applied Physics. 29 (4): 939–949. doi:10.1088/0022-3727/29/4/001. S2CID 250782232.
  3. ^ Matteucci, C. (1858). "Recherches expérimentales sur les phénomènes électromagnétiques développés par la torsion". Annales de Chimie et de Physique. 53, 385.