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- catalog abstract "Photoacoustic infrared spectroscopy differs from traditional infrared spectroscopy in one important way: in its most common implementation, a microphone is used to detect acoustic waves that result from absorption of infrared radiation by a sample. In other words, no optical detector is required to quantify the amount of incident radiation taken up by the sample. This gas-microphone method is one of a series of photoacoustic and photothermal techniques now being used for characterization and analysis of solids, liquids, and gases. Photoacoustic Infrared Spectroscopy represents the most comprehensive resource on this important, emerging technique. Kirk Michaelian℗s trenchant study serves as both a text and reference for a broad community of academic and industrial scientists conducting extensive research and applications in photoacoustic infrared spectroscopy. Chapters include: Evolution of Photoacoustic Infrared Spectroscopy Experimental Methods Depth Profiling Numerical Methods Applications of Photoacoustic Infrared Spectroscopy Quantitative Analysis Special TopicsPhysicists, chemists, and spectroscopists in both academic and industrial laboratories, polymer and organic chemists, analysts in industry, forensic and government laboratories, and materials scientists will find Photoacoustic Infrared Spectroscopy to be a vital resource.".
- catalog contributor b12761274.
- catalog created "2003.".
- catalog date "2003".
- catalog date "2003.".
- catalog dateCopyrighted "2003.".
- catalog description "Chapter 1. Introduction -- 1.1. Single- and multiple-wavelength PA spectroscopies -- 1.2. Scope -- 1.3. Other sources of information -- Chapter 2. Evolution of photoacoustic infrared spectroscopy -- 2.1. Early history -- 2.2. Multiple-wavelength PA infrared spectroscopy -- 2.3. Arrival of PA FTIR spectroscopy -- Chapter 3. Experimental methods -- 3.1. PA infrared spectroscopy with dispersive spectrometers -- 3.2. Rapid-scan PA FTIR spectroscopy -- 3.3. Step-scan PA FTIR spectroscopy -- 3.4. Photothermal beam deflection spectroscopy -- 3.5. Reverse mirage spectroscopy -- 3.6. Piezoelectric detection -- 3.7. Optothermal window spectroscopy -- Chapter 4. Depth profiling -- 4.1. Amplitude modulation -- 4.2. Phase modulation- 4.3. Generalized two-dimensional correlation -- Chapter 5. Numerical methods -- 5.1. Normalization of PA infrared spectra -- 5.2. Linearization of spectra -- 5.3. Phase analysis -- Chapter 6. Applications of PA infrared spectroscopy -- 6.1. Carbons -- 6.2. Coals -- 6.3. Hydrocarbons -- 6.4. Hydrocarbon fuels -- 6.5. Corrosion -- 6.6. Clays and clay minerals -- 6.7. Wood and paper -- 6.8. Polymers -- 6.9. Gases -- 6.10. Food products -- 6.11. Biology and biochemistry -- 6.12. Medical applications -- 6.13. Carbonyl compounds -- 6.14. Textiles -- 6.15. Catalysts -- Chapter 7. Quantitative analysis -- 7.1. Quantitation in PA near-infrared spectroscopy -- 7.2. Quantitation in PA mid-infrared spectroscopy -- 7.3. Quantitative analysis at higher concentrations -- Chapter 8. Special topics -- 8.1. PA infrared microspectroscopy -- 8.2. Synchrotron PA infrared spectroscopy.".
- catalog description "Includes bibliographical references and indexes.".
- catalog description "Photoacoustic infrared spectroscopy differs from traditional infrared spectroscopy in one important way: in its most common implementation, a microphone is used to detect acoustic waves that result from absorption of infrared radiation by a sample. In other words, no optical detector is required to quantify the amount of incident radiation taken up by the sample. This gas-microphone method is one of a series of photoacoustic and photothermal techniques now being used for characterization and analysis of solids, liquids, and gases. Photoacoustic Infrared Spectroscopy represents the most comprehensive resource on this important, emerging technique. Kirk Michaelian℗s trenchant study serves as both a text and reference for a broad community of academic and industrial scientists conducting extensive research and applications in photoacoustic infrared spectroscopy. Chapters include: Evolution of Photoacoustic Infrared Spectroscopy Experimental Methods Depth Profiling Numerical Methods Applications of Photoacoustic Infrared Spectroscopy Quantitative Analysis Special TopicsPhysicists, chemists, and spectroscopists in both academic and industrial laboratories, polymer and organic chemists, analysts in industry, forensic and government laboratories, and materials scientists will find Photoacoustic Infrared Spectroscopy to be a vital resource.".
- catalog extent "xii, 335 p. :".
- catalog hasFormat "Photoacoustic infrared spectroscopy.".
- catalog identifier "0471134775".
- catalog isFormatOf "Photoacoustic infrared spectroscopy.".
- catalog isPartOf "Chemical analysis ; v. 159, [161]".
- catalog issued "2003".
- catalog issued "2003.".
- catalog language "eng".
- catalog publisher "New York : Wiley,".
- catalog relation "Photoacoustic infrared spectroscopy.".
- catalog subject "Infrared spectroscopy.".
- catalog subject "Optoacoustic spectroscopy.".
- catalog subject "QC457 .M485 2003".
- catalog tableOfContents "Chapter 1. Introduction -- 1.1. Single- and multiple-wavelength PA spectroscopies -- 1.2. Scope -- 1.3. Other sources of information -- Chapter 2. Evolution of photoacoustic infrared spectroscopy -- 2.1. Early history -- 2.2. Multiple-wavelength PA infrared spectroscopy -- 2.3. Arrival of PA FTIR spectroscopy -- Chapter 3. Experimental methods -- 3.1. PA infrared spectroscopy with dispersive spectrometers -- 3.2. Rapid-scan PA FTIR spectroscopy -- 3.3. Step-scan PA FTIR spectroscopy -- 3.4. Photothermal beam deflection spectroscopy -- 3.5. Reverse mirage spectroscopy -- 3.6. Piezoelectric detection -- 3.7. Optothermal window spectroscopy -- Chapter 4. Depth profiling -- 4.1. Amplitude modulation -- 4.2. Phase modulation- 4.3. Generalized two-dimensional correlation -- Chapter 5. Numerical methods -- 5.1. Normalization of PA infrared spectra -- 5.2. Linearization of spectra -- 5.3. Phase analysis -- Chapter 6. Applications of PA infrared spectroscopy -- 6.1. Carbons -- 6.2. Coals -- 6.3. Hydrocarbons -- 6.4. Hydrocarbon fuels -- 6.5. Corrosion -- 6.6. Clays and clay minerals -- 6.7. Wood and paper -- 6.8. Polymers -- 6.9. Gases -- 6.10. Food products -- 6.11. Biology and biochemistry -- 6.12. Medical applications -- 6.13. Carbonyl compounds -- 6.14. Textiles -- 6.15. Catalysts -- Chapter 7. Quantitative analysis -- 7.1. Quantitation in PA near-infrared spectroscopy -- 7.2. Quantitation in PA mid-infrared spectroscopy -- 7.3. Quantitative analysis at higher concentrations -- Chapter 8. Special topics -- 8.1. PA infrared microspectroscopy -- 8.2. Synchrotron PA infrared spectroscopy.".
- catalog title "Photoacoustic infrared spectroscopy / Kirk H. Michaelin.".
- catalog type "text".