Resonance Lifetimes from Complex Densities

Aguilar J.; Balslev E.; Buchleitner A.; Chu S.; Deych L. I.; Donnelly R. A.; Doolen G. D.; Ernzerhof M.; Hein S.; Ho Y. K.; Hohenberg P.; Honigmann M.; Junker B. R.; Kohn W.; Krueger A. J.; Marston C. C.; McCurdy C. W.; Moiseyev N.; Moiseyev N.; Moiseyev N.; Nesbet R. K.; Nielsen E. S.; Nordlander P.; Nordlander P.; Nordlander P.; Palmer R. E.; Puiatti M.; Reinhardt W. P.; Rienstra-Kiracofe J. C.; Runge E.; Simon B.; Simons J.; Taylor J. R.; Telnov D. A.; von Weizsacker C. F.; Wasserman A.

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Resonance Lifetimes from Complex Densities

Authors: Aguilar J.
Balslev E.
Buchleitner A.
Chu S.
Deych L. I.
Donnelly R. A.
Doolen G. D.
Ernzerhof M.
Hein S.
Ho Y. K.
Hohenberg P.
Honigmann M.
Junker B. R.
Kohn W.
Krueger A. J.
Marston C. C.
McCurdy C. W.
Moiseyev N.
Moiseyev N.
Moiseyev N.
Nesbet R. K.
Nielsen E. S.
Nordlander P.
Nordlander P.
Nordlander P.
Palmer R. E.
Puiatti M.
Reinhardt W. P.
Rienstra-Kiracofe J. C.
Runge E.
Simon B.
Simons J.
Taylor J. R.
Telnov D. A.
von Weizsacker C. F.
Wasserman A.
Publication date: 23 October 2009
Publisher: 'American Chemical Society (ACS)'
Doi

Abstract

The ab-initio calculation of resonance lifetimes of metastable anions challenges modern quantum-chemical methods. The exact lifetime of the lowest-energy resonance is encoded into a complex "density" that can be obtained via complex-coordinate scaling. We illustrate this with one-electron examples and show how the lifetime can be extracted from the complex density in much the same way as the ground-state energy of bound systems is extracted from its ground-state density

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