Infrared Microspectroscopy: Theory and ApplicationsRobert G. Messerschmidt, Matthew A. Harthcock |
Contents
Minimizing Optical Nonlinearities in Infrared Microspectroscopy | 1 |
Development and Applications | 21 |
The Identification and Characterization of Polymer Contaminants | 41 |
Copyright | |
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30 micrometer 700 Wavenumbers ABSORBANCE absorption Airy disk analysis Analytical application of infrared band capillary carbon Cassegrainian cell cellulose characterization chemical Chemistry cm-¹ cm¹ cm¹ resolution cm³¹ contaminants crystal deposited diameter dichroic dichroic ratio dichroic spectra Difference spectrum diffraction Digilab disk East Fishkill energy EXPERIMENTAL fiber Figure 9 film Form FT-IR microsampling FT-IR microscope functional group image HABA identified infrared microscope infrared microspectroscopy infrared radiation infrared spectra infrared spectroscopy instrument IR-plan microscope kaolin Krishnan lignin manufacturing material MCT detector micrograph micrometers microns microsampling accessory microsampling technique microspectrometry microtomed numerical aperture observed optical P. R. Griffiths paper particles phase polarized polyethylene polyimide polymer polymorphic polypropylene polystyrene polyurethane problem Raman Raman spectroscopy Redundant Aperturing reflectance region residues result sampling area scans Semiconductor shown in Figure shows solvent specimen Spectra-Tech spectrophotometer substrate subtracted temperature thickness Timken transformation transmission TRANSMITTANCE tube W. H. McFadden WAVENUMBERS WAVENUMBERS CM-1