Spin-flip excitation and negative energy dispersion in rotating Bose atoms.

We investigated the excitation spectra for the rotating Bose system in the fractional quantum Hall effect regime considering short-ranged Po¨schl-Teller and long-ranged Coulomb type interaction. We found the anomalous negative dispersion in the excited spectra for Jain's second and third series, whereas conventional spin-wave positive dispersion is observed in the case of Jain's first series. The higher order Jain series display negative curvature with roton minima at lower momenta and exhibit spin-wave excitation similar to conventional ferromagnets at higher momenta. This anomalous spin-flip excitonic state of particle-hole pairs arises due to the merging of two types of spin-reversed modes i.e. spin-wave with no change in Landau level (LL) index and spin-flip with decreasing LL index.