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1 1 Henderson, G.S., Neuville, D.R., and Downs, R.F. (eds.) (2014). Spectroscopic Methods in Mineralogy and Materials Sciences, Reviews in Mineralogy & Geochemistry, vol. 78. Mineralogical Society of America.

2 2 Affatigato, M. (2014). Modern Glass Characterisation. Hoboken, NJ: John Wiley & Sons.

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7 7 Henderson, G.S., de Groot, F.M.F., and Moulton, B.M.A. (2014). X‐ray absorption near‐edge structure (XANES) spectroscopy. Rev. Mineral Geochem. 78: 75–138.

8 8 Farges, F., Brown, G.E. Jr., Navrotsky, A. et al. (1996). Coordination chemistry of Ti(IV) in silicate glasses and melts: II. Glasses at ambient temperature and pressure. Geochim. Cosmochim. Acta 60: 3039–3053.

9 9 Farges, F., Brown, G.E. Jr., and Rehr, J.J. (1997). Ti K‐edge XANES studies of Ti coordination and disorder in oxide compounds: comparison between theory and experiment. Phys. Rev. B 56: 1809–1819.

10 10 Stebbins, J.F. and Xue, X. (2014). NMR spectroscopy of inorganic Earth materials. Rev. Mineral Geochem. 78: 605–653.

11 11 McMillan, P. and Hofmeister, A.M. (1988). Infra‐red and Raman spectroscopy. Rev. Mineral Geochem. 18: 99–159.

12 12 Kamitsos, E.I. (2014). Infrared spectroscopy of glasses. In: Modern Glass Characterisation (ed. M. Affatigato), 1–42. Hoboken, NJ: John Wiley & Sons.

13 13 Behrens, H. and Yamashita, S. (2008). Water speciation in hydrous sodium tetrasilicate and hexasilicate melts: constraint from high temperature NIR spectroscopy. Chem. Geol. 256: 306–315.

14 14 Behrens, H., Misiti, V., Freda, C. et al. (2009). Solubility of H2O and CO2 in ultrapotassic melts at 1200 and 1250 degrees C and pressure from 50 to 500 MPa. Am. Mineral. 94: 105–120.

15 15 Cochain, B., Neuville, D.R., Henderson, G.S. et al. (2012). Effects of the Iron content, redox state and structure of sodium borosilicate glasses: a Raman, Mössbauer and Boron K‐edge XANES spectroscopy study. J. Am. Ceram. Soc. 94: 1–10.

16 16 Innocenzi, P. (2003). Infrared spectroscopy of sol–gel derived silica‐based films: a spectra‐microstructure overview. J. Non Cryst. Solids 316: 309–319.

17 17 Dubessy, J., Caumon, M.‐C., and Rull, F. (2010). Raman spectroscopy Applied to Earth Sciences and Cultural Heritage, European Mineralogical Union, vol. 12. Aberystwyth, UK: Cambrian Printers.

18 18 Neuville, D.R., de Ligny, D., and Henderson, G.S. (2014). Advances in Raman spectroscopy applied to Earth and materials sciences. Rev. MineralGeochem. 78: 509–541.

19 19 Richet, N.F. (2009). Heat capacity and low‐frequency vibrational density of states. Inferences for the boson peak of silica and alkali silicate glasses. Physica B 404: 3799–3806.

20 20 Matson, D.W., Sharma, S.K., and Philpotts, J.A. (1983). The structure of high silica alkali‐silicate glasses. A Raman spectroscopic investigation. J. Non Cryst. Solids 58: 323–352.

21 21 Speziale, S., Marquardt, H., and Duffy, T. (2014). Brillouin spectroscopy and its applications in geosciences. Rev. Mineral Geochem. 78: 543–603.

22 22 Murakami, M. and Bass, J.D. (2010). Spectroscopic evidence for ultra‐high‐pressure polymorphism in SiO2 glass. Phys. Rev. Lett. 104: 025504.

23 23 Johnson, J.A. and Johnson, C.E. (2005). Mössbauer spectroscopy as a probe of silicate glasses. J. Phys. Condens. Mat. 17: R318–R412.

24 24 Nesbitt, H.W. and Bancroft, G.M. (2014). High resolution core‐ and valence‐level XPS studies of the Properties (structural, chemical and bonding) of silicate minerals and glasses. Rev. Mineral Geochem. 78: 271–329.

25 25 Nesbitt, H.W., Bancroft, G.M., Henderson, G.S. et al. (2011). Bridging, non‐bridging and free (O2−) oxygen in Na2O‐SiO2 glasses: An X‐ray photoelectron spectroscopic (XPS) and nuclear magnetic resonance (NMR) study. J. Non Cryst. Solids 357: 170–180.

26 26 Rossman, G.R. (2014). Optical spectroscopy. Rev. Mineral. Geochem. 78: 371–398.