Temperature Dependence of the Width and Position of theFluorescence Lines ofandin MgO
- 17 February 1964
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 133 (4A), A1029-A1034
- https://doi.org/10.1103/physrev.133.a1029
Abstract
The energy levels of an impurity ion in a solid are in general shifted and broadened by thermal vibrations of the host lattice. A study of these effects in a simple system can lead to some understanding of the phonon-impurity interaction. This paper reports measurements of the width and positions of the sharp fluorescence lines of two ions in MgO between 4.2°K and room temperature. A semiempirical model is used to calculate the temperature dependence of the width and position from the vibrational structure associated with the sharp no-phonon line. The shift agrees well with theory but the linewidth deviates somewhat at low temperatures.
Keywords
This publication has 13 references indexed in Scilit:
- Strain-Induced Splitting of theState ofin MgOPhysical Review B, 1963
- Linewidth and Temperature Shift of the R Lines in RubyJournal of Applied Physics, 1963
- Optical Spectrum of Divalent Vanadium in Octahedral CoordinationPhysical Review B, 1963
- Thermal Broadening of the Mössbauer Line and of Narrow-Line Electronic Spectra in SolidsPhysical Review B, 1962
- Temperature-Dependent Linewidth of Excited States in Crystals. I. Line Broadening due to Adiabatic Variation of the Local FieldsPhysical Review B, 1962
- Strain-Induced Effects on the Degenerate Spectral Line of Chromium in MgO CrystalsPhysical Review B, 1961
- Über den Temperatur- und Druckeinfluß auf Elektronenterme in KristallenThe European Physical Journal A, 1951
- The Infra-red Spectrum of Magnesium OxideProceedings of the Physical Society. Section A, 1950
- The Entropy of Water from the Third Law of Thermodynamics. The Dissociation Pressure and Calorimetric Heat of the Reaction Mg(OH)2 = MgO + H2O.. The Heat Capacities of Mg(OH)2 and MgO from 20 to 300°K.Journal of the American Chemical Society, 1937
- The Effect of Temperature upon the Absorption Spectrum of a Synthetic RubyPhysical Review B, 1916