We present numerical evidence of how three-dimensionalization occurs at small scale in rotating turbulence with Beltrami (
) forcing, creating helical flow. The Zeman scale
at which the inertial and eddy turn-over times are equal is more than one order of magnitude larger than the dissipation scale, with the relevant domains (large-scale inverse cascade of energy, dual regime in the direct cascade of energy
and helicity
, and dissipation) each moderately resolved. These results stem from the analysis of a large direct numerical simulation on a grid of
points, with Rossby and Reynolds numbers, respectively, equal to
and
. At scales smaller than the forcing, a helical wave-modulated inertial law for the energy and helicity spectra is followed beyond
by Kolmogorov spectra for
and
. Looking at the two-dimensional slow manifold, we also show that the helicity spectrum breaks down at
, a clear sign of recovery of three-dimensionality in the small scales.