Abstract
Spectroscopy is the study of the interaction of radiation with matter as a function of the energy or wavelength of the absorbed or emitted particles—most commonly, photons or electrons. The application of spectroscopy to glasses and other materials without long-range atomic order is a specialized subfield which has been treated in at least one monograph [1] and will be the subject of the present discussion. Structural studies based on the diffraction of the impinging radiation by the material system are sometimes considered to be outside of the field of spectroscopy and for brevity will not be considered here. It is sometimes convenient to order the various spectroscopic techniques according to the energy regimes probed. From the highest to the lowest energies, these include: Mössbauer (γ ray), x-ray, ultraviolet (UV), visible, infrared (IR) and Raman, electron spin resonance (ESR), nuclear magnetic resonance (NMR), and acoustic. However, numerous derivative spectroscopies have been developed involving various combinations of the preceding, e.g., radioluminescence, cathodoluminescence, photodetected ESR, electron-nuclear double resonance (ENDOR), and photoacoustic spectroscopy.
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© 1985 Martinus Nijhoff Publishers, Dordrecht
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Griscom, D.L. (1985). Spectroscopy of Optical Glasses. In: Wright, A.F., Dupuy, J. (eds) Glass … Current Issues. NATO ASI Series, vol 92. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5107-5_30
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