Electron bubbles in helium clusters. I. Structure and energetics

In this paper we present a theoretical study of the structure, energetics, potential energy surfaces, and energetic stability of excess electron bubbles in (He-4)(N) (N=6500-10(6)) clusters. The subsystem of the helium atoms was treated by the density functional method. The density profile was specified by a void (i.e., an empty bubble) at the cluster center, a rising profile towards a constant interior value (described by a power exponential), and a decreasing profile near the cluster surface (described in terms of a Gudermannian function). The cluster surface density profile width (similar to 6 angstrom) weakly depends on the bubble radius R-b, while the interior surface profile widths (similar to 4-8 angstrom) increase with increasing R-b. The cluster deformation energy E-d accompanying the bubble formation originates from the bubble surface energy, the exterior cluster surface energy change, and the energy increase due to intracluster density changes, with the latter term providing the dominant contribution for N=6500-2x10(5). The excess electron energy E-e was calculated at a fixed nuclear configuration using a pseudopotential method, with an effective (nonlocal) potential, which incorporates repulsion and polarization effects. Concurrently, the energy V-0 of the quasi-free-electron within the deformed cluster was calculated. The total electron bubble energies E-t=E-e+E-d, which represent the energetic configurational diagrams of E-t vs R-b (at fixed N), provide the equilibrium bubble radii R-b(c) and the corresponding total equilibrium energies E-t(e), with E-t(e)(R-e) decreasing (increasing) with increasing N (i.e., at N=6500, R-e=13.5 angstrom and E-t(e)=0.86 eV, while at N=1.8x10(5), R-e=16.6 angstrom and E-t(e)=0.39 eV). The cluster size dependence of the energy gap (V-0-E-t(e)) allows for the estimate of the minimal (He-4)(N) cluster size of N similar or equal to 5200 for which the electron bubble is energetically stable. (c) 2006 American Institute of Physics.