Full-potential multiple scattering theory with space-filling cells for bound and continuum states

Abstract: Abstract. We present a rigorous derivation of a real space Full-Potential MultipleScattering-Theory (FP-MST) that is free from the drawbacks that up to now have impaired its development (in particular the need to expand cell shape functions in spherical harmonics and rectangular matrices), valid both for continuum and bound states, under conditions for space-partitioning that are not excessively restrictive and easily implemented. In this connection we give a new scheme to generate local basis functions for th… Show more

“…Here we give a brief summary of our FPMS method developed previously by some of us [7]. The real-space FPMS theory with spacefilling cells used here is valid both for continuum and bound states and contains only one truncation parameter -lmax, the maximum angular momentum of spherical wave basis.…”

“…Here we report XANES calculations of ideal and defective graphene, graphene oxide and diamond, using the real-space full potential multiple scattering (FPMS) theory with arbitrarily truncated space-filling cells [7,8].…”

X-ray absorption spectra of graphene and graphene oxide by full-potential multiple scattering calculations with self-consistent charge density

“…Here we give a brief summary of our FPMS method developed previously by some of us [7]. The real-space FPMS theory with spacefilling cells used here is valid both for continuum and bound states and contains only one truncation parameter -lmax, the maximum angular momentum of spherical wave basis.…”

“…Here we report XANES calculations of ideal and defective graphene, graphene oxide and diamond, using the real-space full potential multiple scattering (FPMS) theory with arbitrarily truncated space-filling cells [7,8].…”

X-ray absorption spectra of graphene and graphene oxide by full-potential multiple scattering calculations with self-consistent charge density

“…However, this type of potential does not work properly for the flat geometry, which is the case for the considered Cu(II) complexes. In order to perform reliable calculations the FPMS code developed by Hatada and coworkers [31,32] was used. The real part of Hedin-Lundqvist potential (HL) was employed [33].…”

Synthesis, structural studies and biological activity of new Cu(II) complexes with acetyl derivatives of 7-hydroxy-4-methylcoumarin

“…Calculations are now possible within both the "muffintin" and "non-muffin-tin" approximations (Joly 2001;Hatada et al 2010), although a major, unfortunately still incompletely worked out problems, first evidenced by natoli et al (1986) and studied by Gunnella et al . Calculations are now possible within both the "muffintin" and "non-muffin-tin" approximations (Joly 2001;Hatada et al 2010), although a major, unfortunately still incompletely worked out problems, first evidenced by natoli et al (1986) and studied by Gunnella et al .…”

A Bridge between Conceptual Frameworks