Raman Microspectroscopy and Hyperspectral Raman Line Imaging of Hydrothermal Aluminosilicate GlassesUniversity of Michigan, 1998 |
Contents
DEDICATION ii | 4 |
LIST OF APPENDICES | 9 |
U PROBING GLASS STRUCTURE THOUGH OPTICAL DEPTH | 9 |
5 other sections not shown
Common terms and phrases
12 hours 48 hours acetic acid alkali appears approximately assignments autoclaved sample autoclaving procedure background borate ceramics cm band cm¹ control sample corresponding to factors D₂O data set decreases dental Depth of penetration depth profiling distribution Duceram LFC factor analysis factor in Figure factor represents fluorescent contaminants frequency region factor frequency spectral region Fully polymerized network Glass C autoclaved Glass C control glass formulation glass network High frequency region high frequency spectral hydrogen bonded hyperspectral Raman line infrared intense band intensity isolated hydroxyl groups Low frequency region magnitude material molecular water Mysen Non-Cryst P. F. McMillan Partially depolymerized network peaks penetration µm pixels plotted in Figure porcelain present pressurized steam Quartz coverslip Raman line imaging Raman Shift cm-¹ Raman spectrum refluxing residual bicarbonate sample autoclaved score image Scores corresponding scores range signal Significant factors silicate glasses silicate tetrahedra stretching suggests transmission brightfield image vibrational spectroscopy vibrations