Abstract
From the polarization properties of the fluorescence spectrum of single crystals of europic ethylsulfate nonahydrate it was possible to determine the multipole character of transitions, the energies and quantum nature of the seven levels of the ground state multiplet of the europic ion, and the group character of the sublevels into which these states are split by the crystal field. Such an analysis was made of all pure, uncoupled electronic transitions in the fluorescence spectrum. The analysis revealed that the rare earth ion is predominantly perturbed by a field of D3h symmetry, arising from the water molecules of hydration immediately surrounding it. Upon this field is superimposed a weaker one of lower symmetry, C3h, arising from the lattice as a whole. All transitions involving a change of J of one appeared as magnetic dipole radiation. All others appeared as forced electric dipole transitions, including one which would have been fully allowed as a magnetic dipole transition. A similar analysis of the absorption spectrum in the near ultraviolet was only partially successful because of the superposition of the split levels of some of the upper states. It was in accord with the analysis of the fluorescence spectrum and from it was determined the multipole nature of the transitions and the quantum nature of some of the more isolated upper states.
Keywords
Multipole expansionChemistryDipoleAtomic physicsAbsorption spectroscopyIonSpectral lineGround stateMultipletAtomic electron transitionCrystal (programming language)Molecular physicsPhysicsQuantum mechanics
Affiliated Institutions
Related Publications
Analysis of the Spectrum of the Nd+++ Ion in the Bromate Crystal
The absorption spectrum of single crystals of Nd(BrO3)3·9H2O was photographed in the visible and near infrared and ultraviolet in σ and π polarizations. Empirical energy level d...
Properties of<i>d</i>-Electrons in Complex Salts. Part III
Experimental and theoretical studies previously done on the line spectra of transition metal ions in crystals are summarized. Theoretical analyses free from any ambiguous quanti...
Symmetries of Electric Fields About Ions in Solutions. Absorption and Fluorescence Spectra of Europic Chloride in Water, Methanol, and Ethanol
The theoretical and experimental correlations between the symmetries of the microfields about ions, the degree of splitting of energy levels, and the selection rules for radiati...
The electronic states of Ar+2, Kr+2, Xe+2. I. Potential curves with and without spin–orbit coupling
The low-lying states of Ar+2, Kr+2, and Xe+2 have been investigated using the POL CI method. Spin–orbit coupling has been included with a simple atoms-in-molecule approach. The ...
Publication Info
- Year
- 1956
- Type
- article
- Volume
- 24
- Issue
- 6
- Pages
- 1213-1219
- Citations
- 96
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
96
OpenAlex
Cite This
Edward V. Sayre,
Simon Freed
(1956).
Spectra and Quantum States of the Europic Ion in Crystals. II. Fluorescence and Absorption Spectra of Single Crystals of Europic Ethylsulfate Nonahydrate.
The Journal of Chemical Physics
, 24
(6)
, 1213-1219.
https://doi.org/10.1063/1.1742743
Identifiers
- DOI
- 10.1063/1.1742743