Variational Monte Carlo and diffusion Monte Carlo calculations have been carried out for cations such as Li+, Na+, and K+ as dopants of small helium clusters over a range of cluster sizes up to about 12 solvent atoms. The interaction has been modeled through a sum-of-potential picture that disregards higher order effects beyond atom-atom and atom-ion contributions. The latter were obtained from highly correlated ab initio calculations over a broad range of interatomic distances. This study focuses on two of the most striking features of the microsolvation in a quantum solvent of a cationic dopant: electrostriction and snowball effects. They are discussed here in detail and in relation with the nanoscopic properties of the interaction forces at play within a fully quantum picture of the cluster features.
Bosonic helium droplets with cationic impurities: Onset of electrostriction and snowball effects from quantum calculations / Coccia, Emanuele; Bodo, Enrico; Marinetti, Fabio; Gianturco, Francesco Antonio; E., Yidrim; E., Yurtsever; M., Yurtsever. - In: THE JOURNAL OF CHEMICAL PHYSICS. - ISSN 0021-9606. - 126:(2007), pp. 124319-1-124319-8. [10.1063/1.2712437]
Bosonic helium droplets with cationic impurities: Onset of electrostriction and snowball effects from quantum calculations
COCCIA, EMANUELE;BODO, Enrico;MARINETTI, FABIO;GIANTURCO, Francesco Antonio;
2007
Abstract
Variational Monte Carlo and diffusion Monte Carlo calculations have been carried out for cations such as Li+, Na+, and K+ as dopants of small helium clusters over a range of cluster sizes up to about 12 solvent atoms. The interaction has been modeled through a sum-of-potential picture that disregards higher order effects beyond atom-atom and atom-ion contributions. The latter were obtained from highly correlated ab initio calculations over a broad range of interatomic distances. This study focuses on two of the most striking features of the microsolvation in a quantum solvent of a cationic dopant: electrostriction and snowball effects. They are discussed here in detail and in relation with the nanoscopic properties of the interaction forces at play within a fully quantum picture of the cluster features.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
