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Resolution of a paradox in the calculation of exchange forces for H+2

✍ Scribed by T.C. Scott; J.F. Babb; A. Dalgarno; John D. Morgan III

Publisher: Elsevier Science
Year: 1993
Tongue: English
Weight: 822 KB
Volume: 203
Category: Article
ISSN: 0009-2614
DOI: 10.1016/0009-2614(93)85383-y

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✦ Synopsis

Tang, Toennies and Yiu have shown that despite the inherent symmetry of H2+, wavefunctions obtained from a combination of the unsymmetrized polarization expansion and the 1 /R expansion can be used in the Holstein-Herring formula to calculate for large internuclear distances R the leading 8(eeR) terms in the exchange energy between the lowest pair of states. However, the associated claim by Tang and Toennies that the polarization expansion of the wavefunction converges not to the gerade molecular wavefunction, but to an asymmetric function localized about a single nucleus, conflicts with other numerical and analytical results. We show by a limiting procedure that use of the infinite polarization expansion for the wavefunction in the Holstein-Herring formula provides a result that is not equal to the exact exchange energy, although it has the correct leading 0 (ebR) behavior and is impressively close to the exact exchange energy for large R.

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