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Binding He atoms to hydrogen moieties: Quantum features from ultraweak interactions

AuthorsOrlandini, S.; Coccia, E.; Baccarelli, Isabella; Gianturco, Franco Antonio; Garrido, Eduardo ; González-Lezana, Tomás ; Delgado Barrio, Gerardo ; Villarreal, Pablo
Issue Date2010
PublisherTaylor & Francis
CitationMolecular Physics 108(01): 57- 72 (2010)
AbstractThe possible existence of bound states in small helium clusters containing atomic and molecular hydrogen has been investigated by means of three completely independent sets of calculations. The first set employs the Jacobi-Davidson filtering procedure recently implemented in the Distributed Gaussian Functions (DGF) approach, the second one is based on the solution of the Faddeev equation by means of the hyperspherical adiabatic expansion method and the third follows the Quantum Monte Carlo approach. The partners within each complex are taken to interact via two-body potentials chosen among the most accurate existing in the literature. All the present quantum treatments show that no bound states are found for H(4He)2 and for D(4He)2 while only one very diffuse bound state is present in T(4He)2, where H, D and T are the three isotopes of hydrogen. The substitution of the atomic dopant with its molecular counterpart, H2, also gives rise to only one bound state whose spatial attributes are reported and analysed, underlining again the ultraweak nature of the interaction forces and the need to implement highly specific tools for the investigation of the ensuing bound states.
Identifiersdoi: 10.1080/00268970903496660
issn: 0026-8976
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