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Spontaneous symmetry breaking and electron correlation

✍ Scribed by S. Sˇuba; M. A. Whitehead

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
168 KB
Volume
65
Category
Article
ISSN
0020-7608

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✦ Synopsis

The Dyson equation and Green's function formalism map the problem of N electrons in the Born᎐Oppenheimer nuclear field into a one-electron Schrodinger ëquation problem in quantum chemistry. The mass operator contains the information about electron correlation, and the ground-state energy, electron affinity, and ionization energy of a molecular system. This pseudopotential approach is combined with the Ž . random-phase approximation RPA method to give a model with spontaneous symmetry breaking, where the relevant features are incorporated in a transparent way. An effective potential is developed consisting of a Hartree᎐Fock solution with auxiliary fields to probe for deformation instabilities. The model is then connected to a closely related perturbative propagator approach and linked with the configuration interaction formalism.

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