THz Absorption Spectra of Fe and Mg Water Complexes Calculated by Density Functional Theory View Full Text


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Article Info

DATE

2013-05

AUTHORS

L. Huang, S. G. Lambrakos, A. Shabaev, L. Massa, C. Yapijakis

ABSTRACT

Monitoring of water contaminants implies a need for determining their dielectric response properties with respect to electromagnetic wave excitation at various frequencies. Iron is a naturally occurring water contaminant, which is the result of decaying vegetation and is at much higher concentrations than any other metal contaminant. The present study uses density functional theory (DFT) for the calculation of ground state resonance structure and stability analysis of Fe water complexes. The calculations presented are for excitation by electromagnetic waves at frequencies within the THz range. Dielectric response functions calculated by DFT can be used for the analysis of water contaminants. These functions provide quantitative initial estimates of spectral response features for subsequent adjustment with respect to additional information such as laboratory measurements and other types of theory-based calculations. In addition, with respect to qualitative analysis, DFT calculated absorption spectra provide for molecular level interpretation of response structure. The DFT software GAUSSIAN was used for the calculations of ground state resonance structure presented here. More... »

PAGES

1257-1267

References to SciGraph publications

  • 1993-03. Electronic structure and reactivity of Mg+(H2O)n cluster ions in ZEITSCHRIFT FÜR PHYSIK D ATOMS,MOLECULES AND CLUSTERS
  • 2011-12. THz Dielectric Properties of High Explosives Calculated by Density Functional Theory for the Design of Detectors in JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE
  • 2012-07. Dielectric Response of High Explosives at THz Frequencies Calculated Using Density Functional Theory in JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE
  • 2009-09. Terahertz spectroscopy techniques for explosives detection in ANALYTICAL AND BIOANALYTICAL CHEMISTRY
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    http://scigraph.springernature.com/pub.10.1007/s11665-012-0431-9

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