Orbital Density Reconstruction for Molecules | Zendy

Matthias Dauth | Zendy; Thomas Körzdörfer | Zendy; Stephan Kümmel | Zendy; J. Ziroff | Zendy; M. Wießner | Zendy; A. Schöll | Zendy; F. Reinert | Zendy; Masashi Arita | Zendy; K. Shimada | Zendy

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Orbital Density Reconstruction for Molecules

Author(s) -

Matthias Dauth,

Thomas Körzdörfer,

Stephan Kümmel,

J. Ziroff,

M. Wießner,

A. Schöll,

F. Reinert,

Masashi Arita,

K. Shimada

Publication year - 2011

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.107.193002

Subject(s) - atomic orbital , slater type orbital , molecular orbital theory , physics , molecular orbital , natural bond orbital , density functional theory , atomic physics , molecular physics , quantum mechanics , molecule , electron

The experimental imaging of electronic orbitals has allowed one to gain a fascinating picture of quantum effects. We here show that the energetically high-lying orbitals that are accessible to experimental visualization in general differ, depending on which approach is used to calculate the orbitals. Therefore, orbital imaging faces the fundamental question of which orbitals are the ones that are visualized. Combining angular-resolved photoemission experiments with first-principles calculations, we show that the orbitals from self-interaction-free Kohn-Sham density functional theory are the ones best suited for the orbital-based interpretation of photoemission.

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