Search

Your search keyword '"Shetter, R. E."' showing total 10 results
Start Over Author "Shetter, R. E." Journal journal of geophysical research
10 results on '"Shetter, R. E."'

1. Measurement of HO 2 NO 2 in the free troposphere during the Intercontinental Chemical Transport Experiment�North America 2004

Author

Kim, S., Huey, L. G, Stickel, R. E, Tanner, D. J, Crawford, J. H, Olson, J. R, Chen, G., Brune, W. H, Ren, X., Lesher, R., Wooldridge, P. J, Bertram, T. H, Perring, A., Cohen, R. C, Lefer, B. L, Shetter, R. E, Avery, M., Diskin, G., and Sokolik, I.

Subjects
peroxynitric acid, pernitric acid, reactive nitrogen, rate coefficient, boundary-layer, south-pole, hox, oh, stratosphere, HO(X)
Abstract

The first direct in situ measurements of HO2NO2 in the upper troposphere were performed from the NASA DC-8 during the Intercontinental Chemical Transport Experiment–North America 2004 with a chemical ionization mass spectrometer (CIMS). These measurements provide an independent diagnostic of HOx chemistry in the free troposphere and complement direct observations of HOx, because of the dual dependency of HO2NO2 on HOx and NOx. On average, the highest HO2NO2 mixing ratio of 76 pptv (median = 77 pptv,σ = 39 pptv) was observed at altitudes of 8–9 km. Simple steady state calculations of HO2NO2, constrained by measurements of HOx, NOx, and J values, are in good agreement (slope = 0.90, R2 = 0.60, and z = 5.5–7.5 km) with measurements in the midtroposphere where thermal decomposition is the major loss process. Above 8 km the calculated steady state HO2NO2 is in poor agreement with observed values (R2 = 0.20) and is typically larger by a factor of 2.4. Conversely, steady state calculations using model-derived HOx show reasonable agreement with the observed HO2NO2 in both the midtroposphere (slope = 0.96, intercept = 7.0, and R2 = 0.63) and upper troposphere (slope = 0.80, intercept = 32.2, and R2 = 0.58). These results indicate that observed HO2 and HO2NO2 are in poor agreement in the upper troposphere but that HO2NO2 levels are consistent with current photochemical theory.

Published
2007

2. Calculations of Solar Shortwave Heating Rates due to Black Carbon and Ozone Absorption Using in Situ Measurements

Author

Gao, R. S, Hall, S. R, Swartz, W. H, Spackman, J. R, Watts, L. A, Fahey, D. W, Aikin, K. C, Shetter, R. E, and Bui, T. P

Subjects
Geophysics
Abstract

Results for the solar heating rates in ambient air due to absorption by black-carbon (BC) containing particles and ozone are presented as calculated from airborne observations made in the tropical tropopause layer (TTL) in January-February 2006. The method uses airborne in situ observations of BC particles, ozone and actinic flux. Total BC mass is obtained along the flight track by summing the masses of individually detected BC particles in the range 90 to 600-nm volume-equivalent diameter, which includes most of the BC mass. Ozone mixing ratios and upwelling and partial downwelling solar actinic fluxes were measured concurrently with BC mass. Two estimates used for the BC wavelength-dependent absorption cross section yielded similar heating rates. For mean altitudes of 16.5, 17.5, and 18.5 km (0.5 km) in the tropics, average BC heating rates were near 0.0002 K/d. Observed BC coatings on individual particles approximately double derived BC heating rates. Ozone heating rates exceeded BC heating rates by approximately a factor of 100 on average and at least a factor of 4, suggesting that BC heating rates in this region are negligible in comparison.

Published
2008
Full Text
View/download PDF

3. Visible-ultraviolet absorption cross sections for NO2 as a function of temperature

Author

Davidson, J. A, Cantrell, C. A, Mcdaniel, A. H, Shetter, R. E, and Madronich, S

Subjects
Geophysics
Abstract

A redetermination of the temperature dependence of the absorption cross-section (sigma) of NO2 in the visible-ultraviolet region was made in order to provide a more reliable data base for the calculation of NO2 photolysis rates in the atmosphere. Experiments over a wide range of temperatures and NO2 concentrations were conducted. The integral of a plot of sigma versus the inverse of the wavelength was essentially independent of temperature. Increasing temperature produced a shift of the spectrum toward longer wavelengths, resulting in a small negative temperature dependence of sigma over the 264-400 nm range and a small positive dependence over the 450-649 nm range. Increasing temperature produced broadening of individual spectral features, resulting in a systematic lowering of peaks and filling of valleys. Recommended cross sections are presented for use in tropospheric NO2 photolysis rate calculations.

Published
1988

4. Carbon kinetic isotope effect in the reaction of CH4 with HO

Author

Davidson, J. A, Cantrell, C. A, Tyler, S. C, Shetter, R. E, and Cicerone, R. J

Subjects
Inorganic And Physical Chemistry
Abstract

The carbon kinetic isotope effect in the CH4 + HO reaction is measured experimentally and the use of carbon isotope ratios to diagnose atmospheric methane is examined. The chemical, photolysis, and analytical experimental conditions and procedures are described. It is determined that the CH4 + HO reaction has a carbon kinetic isotope effect of 1.010 + or 0.007 for k(12)k(13) (rate constants ratio) at 297 + or - 3 K. This value is compared with the data of Rust and Stevens (1980). Causes for the poor correlation between the data at high methane conversions are discussed. It is supposed that the difference between the k(12) and k(13) values is due to a difference in the activation energy of the two reactions.

Published
1987

5. Stratospheric free chlorine measured by balloon-borne in situ resonance fluorescence

Author

Anderson, J. G, Grassl, H. J, Shetter, R. E, and Margitan, J. J

Subjects
Geophysics
Abstract

Eight balloon-borne in situ measurements of ClO in the stratosphere are analyzed and are compared with recent model calculations. While the use of in situ stratospheric studies of free radicals to test models by comparing observed and predicted concentration profiles is essential for a prognosis of changes in stratospheric ozone, resulting from future changes in stratospheric ozone, such studies provide only limited insight into the nature of stratospheric photochemistry, because natural variability and the large number of fast reactions which compete in the coupling among the key radicals frustrate a detailed comparison between a mean distribution provided by the models and an instantaneous distribution provided by a single observation.

Published
1980

7. Peroxy radicals in the ROSE experiment: Measurement and theory

Author

Cantrell, C. A., primary, Lind, J. A., additional, Shetter, R. E., additional, Calvert, J. G., additional, Goldan, P. D., additional, Kuster, W., additional, Fehsenfeld, F. C., additional, Montzka, S. A., additional, Parrish, D. D., additional, Williams, E. J., additional, Buhr, M. P., additional, Westberg, H. H., additional, Allwine, G., additional, and Martin, R., additional

Published
1992
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results