Self-interaction corrected dipole polarizabilites of free atoms and their ions

ORAL

Abstract

Conventional density functional theory (DFT) suffers from electron self-interaction error (SIE) and hence tends to underbind the electrons. As a consequence, within DFT the electrons’ density in free atoms and their ions tends to be too responsive to an external electric field. Self-interaction corrected density functional theory (SIC-DFT) calculations improve the description of electron binding, because the unphysical SIE is removed. We apply Fermi-Löwdin orbital self-interaction correction (FLO-SIC) to calculate static dipole polarizabilites of free neutral atoms, their cations and their anions. We compare FLO-SIC-DFT polarizabilites of these systems against results from parent DFT functionals. We find FLO-SIC-DFT polarizabilites agree better with experimental and accurate quantum chemistry calculation result

*This material is based upon work supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, under Award Number DE-SC0018331.

Presenters

  • Kushantha Pradeep Kumara Withanage

    • Central Michigan University

Authors

  • Kushantha Pradeep Kumara Withanage

    • Central Michigan University

  • Sharmin Akter

    • Physics, University of Texas, El Paso
    • University of Texas, El Paso

  • Chandra Shahi

    • Physics, Temple University

  • Tunna Baruah

    • University of Texas, El Paso
    • Physics, University of Texas at El Paso
    • Physics, University of Texas, El Paso

  • Rajendra R Zope

    • Physics, University of Texas, El Paso

  • John P Perdew

    • Temple University
    • Physics, Temple University

  • Juan Peralta

    • Central Michigan University
    • Department of Physics, Central Michigan University

  • Koblar Jackson

    • Central Michigan University
    • Department of Physics, Central Michigan University