Abstract
We propose Lagrangian formulations of a three-particle translation invariant N = 4 superconformal mechanics based on the standard and twisted (1, 4, 3) supermultiplets. We show that in the appropriate set of coordinates, in which the bosonic kinetic terms for each of the two cases take conformally-flat forms, the corresponding models produce just similar physical systems with the flipped angular part of bosonic potential U(x) → 1/U(x). This flipping looks so simple only being written in the ‘angle’ variable, while in the standard variables it looks more complicated to preserve the superconformal symmetry. We demonstrate at both the superfield and the component level, how familiar N = 4 supersymmetric three-particle models, including 3-Calogero, BC2 and G2 ones, can be constructed with twisted supermultiplets. We also present some new explicit examples of three-dimensional superconformal mechanics.
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