List of contributors
Chapter 1 - An introduction to cavity ring-down spectroscopy
1.2 Direct absorption spectroscopy
1.3 Basic cavity ring down spectroscopy setup
1.4 A more refined picture
1.5 Fitting of cavity ring down transients
1.6 A few examples
1.7 Going beyond the standard pulsed CRDS experiment
Chapter 2 - Cavity enhanced techniques using continuous wave lasers
2.1 Properties of optical cavities and cw lasers relevant to cavity enhanced spectroscopy
2.3 Experimental methods for cw laser cavity enhanced spectroscopy
2.4 Spectroscopy with resonant cavities
Chapter 3 - Broadband cavity ring-down spectroscopy
3.2 The time and wavelength evolution of a single ringdown event.
3.3 Two dimensional techniques: resolving broadband cavity output in time and wavelength.
3.4 One dimensional techniques: time or wavelength.
3.5 How to extract quantitative information from broadband spectra.
3.6 Optimising the sensitivity of a broadband measurement.
3.7 Applications of broadband cavity methods.
Chapter 4 - Cavity ring-down spectroscopy in analytical chemistry
4.2 Condensed media CRDS
4.3 Evanescent-wave CRDS
4.4 Future trends and perspectives
Chapter 5 - Cavity ring-down spectroscopy using waveguides
5.2. The basic experiments
5.3. Optics and Instrumentation
5.4. Review of waveguide CRD literature
5.5. Conclusion and outlook
Chapter 6 - Cavity ring down spectroscopy of molecular transients of astrophysical interest
6.3. Astronomical considerations
Chapter 7 - Applications of cavity ring-down spectroscopy in atmospheric chemistry
7.1. Brief overview
7.2. Measurement of trace atmospheric species by CRDS
7.3. Laboratory based studies of atmospheric interest
7.4. Optical properties of atmospheric aerosol particles
7.5. Future developments
Chapter 8 - Cavity ring-down spectroscopy for medical applications
8.2. Trace gases in medicine and biology
8.3. Instrumentation for laser analytics of breath and other biological gas samples
8.4. Applications to life sciences
8.5. Conclusion and Perspectives
Chapter 9: Studies into the growth mechanism of a-Si:H using in situ cavity ring-down techniques
9.2. Gas phase CRDS on SiHx radicals
9.3. Thin film CRDS on dangling bonds in a-Si:H films (ex situ)
9.4. Evanescent wave CRDS on dangling bonds during a-Si:H film growth
Chapter 10 – Cavity ring down spectroscopy for combustion studies
10.2. General description of cavity ring down spectroscopy in flames
10.3. Experimental set-up
10.4. Quantitative concentration measurements in flames
10.5. Concentration profile determination
10.6. Specific difficulties in combustion studies
10.7. Case of particles: soot volume fraction determination
10.8. Conclusion and prospective
Appendix A Literature
It is undoubtedly a good reference to have in the lab where CRDS experiments are done. Given the wide range of areas where CRDS and its variants are being applied, it seems likely that this book will generate broad interest in the chemical (and other scientific) communities. (JACS, January 2010)
Provides a comprehensive review of new developments and applications of CRD in spectroscopic analysis, atmospheric chemistry, medical diagnostics, and combustion and plasma studies.