1. Concurrent multiaxis differential optical absorption spectroscopy system for the measurement of tropospheric nitrogen dioxide
- Author
-
Paul S. Monks, Roland Leigh, Udo Friess, and Gary K. Corlett
- Subjects
medicine.medical_specialty ,Spectrometer ,business.industry ,Stray light ,Materials Science (miscellaneous) ,Differential optical absorption spectroscopy ,Industrial and Manufacturing Engineering ,Spectral imaging ,chemistry.chemical_compound ,Optics ,chemistry ,Temporal resolution ,medicine ,Environmental science ,Nitrogen dioxide ,Business and International Management ,business ,Spectroscopy ,Zenith ,Remote sensing - Abstract
The development of a new concurrent multiaxis (CMAX) sky viewing spectrometer to monitor rapidly changing urban concentrations of nitrogen dioxide is detailed. The CMAX differential optical absorption spectroscopy (DOAS) technique involves simultaneous spectral imaging of the zenith and off-axis measurements of spatially resolved scattered sunlight. Trace-gas amounts are retrieved from the measured spectra using the established DOAS technique. The potential of the CMAX DOAS technique to derive information on rapidly changing concentrations and the spatial distribution of NO2 in an urban environment is demonstrated. Three example data sets are presented from measurements during 2004 of tropospheric NO2 over Leicester, UK (52.62 degrees N, 1.12 degrees W). The data demonstrate the current capabilities and future potential of the CMAX DOAS method in terms of the ability to measure real-time spatially disaggregated urban NO2.
- Published
- 2006