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Paper detail

Projected Quasiparticle Theory for Molecular Electronic Structure

We derive and implement symmetry-projected Hartree-Fock-Bogoliubov (HFB) equations and apply them to the molecular electronic structure problem. All symmetries (particle number, spin, spatial, and complex conjugation) are deliberately broken and restored in a self-consistent variation-after-projection approach. We show that the resulting method yields a comprehensive black-box treatment of strong correlations with effective one-electron (mean-field) computational cost. The ensuing wave function is of multireference character and permeates the entire Hilbert space of the problem. The energy expression is different from regular HFB theory but remains a functional of an independent quasiparticle density matrix. All reduced density matrices are expressible as an integration of transition density matrices over a gauge grid. We present several proof-of-principle examples demonstrating the compelling power of projected quasiparticle theory for electronic structure theory.

preprint2011arXivOpen access
Gustavo E. ScuseriaCarlos A. Jimenez-HoyosThomas M. HendersonKousik SamantaJason K. Ellis
cond-mat.str-el
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Gustavo E. ScuseriaCarlos A. Jimenez-HoyosThomas M. HendersonKousik SamantaJason K. Ellis

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