Revealing the origin of super-Efimov states in the hyperspherical formalism

Abstract

Super-Efimov states are a new kind of universal three-body bound states predicted for three identical fermions with p-wave resonant interactions in two dimensions by a recent field-theoretic calculation [Phys.~Rev.~Lett.~110, 235301 (2013)]. The binding energies of these states obey a dramatic double exponential scaling En=E*(-2 eπ n/s0+θ) with universal scaling s0=4/3 and three-body parameters E* and θ. We use the hyperspherical formalism and show that the super-Efimov states originate from an emergent effective potential -1/42-(s02+1/4)/22() at large hyperradius . Moreover, for pairwise interparticle potentials with van der Waals tails, our numerical calculation indicates that the three-body parameters E* and θ are also universal and the ground super-Efimov state shall cross the threshold when the 2D p-wave scattering area is about -42.0\, lvdW2 with lvdW the van der Waals length.