Anyons with anomalous gyromagnetic ratio & the Hall effect

Abstract

Letting the mass depend on the spin-field coupling as M2=m2-(eg/2c2)FαβSαβ, we propose a new set of relativistic planar equations of motion for spinning anyons. Our model can accommodate any gyromagnetic ratio g and provides us with a novel version of the Bargmann-Michel-Telegdi equations in 2+1 dimensions. The system becomes singular when the field takes a critical value, and, for g≠2, the only allowed motions are those which satisfy the Hall law. For each g≠2,0 a secondary Hall effect arises also for another critical value of the field. The non-relativistic limit of our equations yields new models which generalize our previous ``exotic'' model, associated with the two-fold central extension of the planar Galilei group.

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