Helium and hydrogen adsorbed on spheres and cylinders

E. S. HERNANDEZ Y L. SZYBISZ

JOURNAL OF LOW TEMPERATURE PHYSICS

SPRINGER/PLENUM PUBLISHERS

Lugar: New York; Año: 2014 p. 1 - 14

0022-2291

We examine the  metastable and unstable regimes of  condensation of superfluid helium and parahydrogen on  spheres and cylinders at finite temperatures, employing finite range density functionals. The goal is  to compare  calculations of sizes and spreads of films at the onset of metastability and of instability with the predictions of a simple phenomenological model that contemplates the curvature of the substrate. We have focused on two cases, helium on nanospheres  and nanocylinders of different materials, and hydrogen on fullerenes.  We are able to locate the onset of metastability and of spinodal instability in the adsorption isotherms of every sample and to extract the width of the condensed fluid. It is shown that the predictions of the so--called simple model agree surprisingly well with the more  elaborate calculations.