TY - JOUR
T1 - The electronic ground state of the NeAr2+ dication. A complete active space SCF/multi-reference CI study
AU - Koch, Wolfram
AU - Frenking, Gernot
AU - Gobbi, Alberto
PY - 1993/2/19
Y1 - 1993/2/19
N2 - The lowest-lying electronic state of the NeAr2+ dication, X 1Σ+, has been investigated using accurate ab initio calculations of the complete active space SCF/multireference CI type employing large one-electron basis sets. A rather deep local minimum is found in the potential energy curve with a barrier of 0.81 eV preventing spontaneous dissociation into the Ne+ (2P) + Ar+ (2P) separated atom limit, which is 4.46 eV more stable than the metastable NeAr2+ diatomic. Thus, the recently experimetally observed NeAr2+ dication is most probably the ground state ion. This is in sharp contrast to Ne2+ 2, which is also experimentally known, but since its X 1Σ+ electronic ground state potential is purely repulsive must be in a long-lived excited state.
AB - The lowest-lying electronic state of the NeAr2+ dication, X 1Σ+, has been investigated using accurate ab initio calculations of the complete active space SCF/multireference CI type employing large one-electron basis sets. A rather deep local minimum is found in the potential energy curve with a barrier of 0.81 eV preventing spontaneous dissociation into the Ne+ (2P) + Ar+ (2P) separated atom limit, which is 4.46 eV more stable than the metastable NeAr2+ diatomic. Thus, the recently experimetally observed NeAr2+ dication is most probably the ground state ion. This is in sharp contrast to Ne2+ 2, which is also experimentally known, but since its X 1Σ+ electronic ground state potential is purely repulsive must be in a long-lived excited state.
UR - http://www.scopus.com/inward/record.url?scp=0000343539&partnerID=8YFLogxK
U2 - 10.1016/0009-2614(93)85388-5
DO - 10.1016/0009-2614(93)85388-5
M3 - 文章
AN - SCOPUS:0000343539
SN - 0009-2614
VL - 203
SP - 205
EP - 210
JO - Chemical Physics Letters
JF - Chemical Physics Letters
IS - 2-3
ER -