Dynamics of hydrogen guests in ice XVII nanopores

The present high-resolution inelastic neutron scattering experiment on ice XVII, containing molecular hydrogen with different ortho/para ratio, allows to assign the H$_2$ motion spectral bands to rotational and center-of-mass translational transitions of either {\it para}- or {\it ortho}-H$_2$. Due to its structure, ice XVII confines H$_2$ molecules to move in spiral channels of molecular size. Reported data demonstrate that H$_2$ molecules rotate almost freely in these nanometric channels, though showing larger perturbation than in clathrate hydrates, and perform a translational motion exhibiting two low frequency excitations. The good agreement between experimental spectra and corresponding molecular dynamics results clearly enables to portray a picture of the confined motions of a hydrophobic guest within a metastable ice framework, i.e. ice XVII.