A global two-valued ground-state potential for H-3(+) is constructed.
The energy switching approach is used to combine different functional
forms for three different energy regimes. The Born-Oppenheimer surface
of Dinelli et al. [J. Chem. Phys. 103 (1995) 10433] is used for energ
ies up to 20000 cm(-1), for higher energies the many-body expansion of
Sorbie and Murrell is fitted to ab initio calculations [Schinke et al
., J. Chem. Phys. 72 (1980) 3909], at large separations long-range ter
ms are combined with accurate diatomic potentials. This produces an ac
curate global potential which represents all aspects of ground-state H
: including the avoided crossing of the two surfaces and dissociation
limits. This surface is suitable for studying spectroscopy, high-lying
bound states and reaction dynamics. (C) 1997 Elsevier Science B,V.