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391 results on '"Gao, R. S"'

1. Atmospheric emissions from the Deepwater Horizon spill constrain air‐water partitioning, hydrocarbon fate, and leak rate

Author

Ryerson, TB, Aikin, KC, Angevine, WM, Atlas, EL, Blake, DR, Brock, CA, Fehsenfeld, FC, Gao, R‐S, de Gouw, JA, Fahey, DW, Holloway, JS, Lack, DA, Lueb, RA, Meinardi, S, Middlebrook, AM, Murphy, DM, Neuman, JA, Nowak, JB, Parrish, DD, Peischl, J, Perring, AE, Pollack, IB, Ravishankara, AR, Roberts, JM, Schwarz, JP, Spackman, JR, Stark, H, Warneke, C, and Watts, LA

Subjects
Life Below Water, Meteorology & Atmospheric Sciences
Abstract

The fate of deepwater releases of gas and oil mixtures is initially determined by solubility and volatility of individual hydrocarbon species; these attributes determine partitioning between air and water. Quantifying this partitioning is necessary to constrain simulations of gas and oil transport, to predict marine bioavailability of different fractions of the gas-oil mixture, and to develop a comprehensive picture of the fate of leaked hydrocarbons in the marine environment. Analysis of airborne atmospheric data shows massive amounts (∼258,000 kg/day) of hydrocarbons evaporating promptly from the Deepwater Horizon spill; these data collected during two research flights constrain air-water partitioning, thus bioavailability and fate, of the leaked fluid. This analysis quantifies the fraction of surfacing hydrocarbons that dissolves in the water column (∼33% by mass), the fraction that does not dissolve, and the fraction that evaporates promptly after surfacing (∼14% by mass). We do not quantify the leaked fraction lacking a surface expression; therefore, calculation of atmospheric mass fluxes provides a lower limit to the total hydrocarbon leak rate of 32,600 to 47,700 barrels of fluid per day, depending on reservoir fluid composition information. This study demonstrates a new approach for rapid-response airborne assessment of future oil spills. Copyright 2011 by the American Geophysical Union.

Published
2011

4. The Detection of Large HNO 3 -Containing Particles in the Winter Arctic Stratosphere

Author

Fahey, D. W., Gao, R. S., Carslaw, K. S., Kettleborough, J., Popp, P. J., Northway, M. J., Holecek, J. C., Ciciora, S. C., McLaughlin, R. J., Thompson, T. L., Winkler, R. H., Baumgardner, D. G., Gandrud, B., Wennberg, P. O., Dhaniyala, S., McKinney, K., Salawitch, R. J., Bui, T. P., Elkins, J. W., Webster, C. R., Atlas, E. L., Jost, H., Wilson, J. C., Herman, R. L., Kleinböhl, A., and von König, M.

Published
2001

5. The diurnal variation of hydrogen, nitrogen, and chlorine radicals: Implications for the heterogeneous production of HNO 2

Author

Salawitch, R. J, Wofsy, S. C, Wennberg, P. O, Cohen, R. C, Anderson, J. G, Fahey, D. W, Gao, R. S, Keim, E. R, Woodbridge, E. L, Stimpfle, R. M, Koplow, J. P, Kohn, D. W, Webster, C. R, May, R. D, Pfister, L., Gottlieb, E. W, Michelsen, H. A, Yue, G. K, Prather, M. J, Wilson, J. C, Brock, C. A, Jonsson, H. H, Dye, J. E, Baumgardner, D., Proffitt, M. H, Loewenstein, M., Podolske, J. R, Elkins, J. W, Dutton, G. S, Hintsa, E. J, Dessler, A. E, Weinstock, E. M, Kelly, K. K, Boering, K. A, Daube, B. C, Chan, K. R, and Bowen, S. W

Subjects
environmental chambers, peroxynitric acid, stratosphere
Abstract

In situ measurements of hydrogen, nitrogen, and chlorine radicals obtained through sunrise and sunset in the lower stratosphere during SPADE are compared to results from a photochemical model constrained by observed concentrations of radical precursors and environmental conditions. Models allowing for heterogeneous hydrolysis of N2O5 on sulfate aerosols agree with measured concentrations of NO, NO2, and ClO throughout the day, but fail to account for high concentrations of OH and HO2 observed near sunrise and sunset. The morning burst of [OH] and [HO2] coincides with the rise of [NO] from photolysis of NO2, suggesting a new source of HOxthat photolyzes in the near UV (350 to 400 nm) spectral region. A model that allows for the heterogeneous production of HNO2 results in an excellent simulation of the diurnal variations of [OH] and [HO2].

Published
1994

9. Emission Measurements of the Concorde Supersonic Aircraft in the Lower Stratosphere

Author

Fahey, D. W., Keim, E. R., Boering, K. A., Brock, C. A., Wilson, J. C., Jonsson, H. H., Anthony, S., Hanisco, T. F., Wennberg, P. O., Miake-Lye, R. C., Salawitch, R. J., Louisnard, N., Woodbridge, E. L., Gao, R. S., Donnelly, S. G., Wamsley, R. C., Del Negro, L. A., Solomon, S., Daube, B. C., Wofsy, S. C., Webster, C. R., May, R. D., Kelly, K. K., Loewenstein, M., Podolske, J. R., and Chan, K. R.

Published
1995

13. The NOx-HNO3 system in the lower stratosphere: Insights from in situ measurements and implications of J(sub HNO3)-[OH] relationship

Author

Perkins, K. K., Koch, L. C., Bonne, G. P., Wennberg, P. O., Salawitch, R. J., McElroy, C. T., Cohen, R. C., Hanisco, T. F., Hinsta, E. J., Voss, P. B., Stimpfle, R. M., Anderson, J. G., Lanzendorf, E. J., Del Negro, L. A., Gao, R. S., Bui, T. P., and Loewenstein, M.

Subjects
Photolysis -- Methods, Stratosphere -- Research, Nitric acid -- Research, Chemicals, plastics and rubber industries
Abstract

The situ observations were used to evaluate the primary mechanisms that control NOx-HNO3 exchange and to understand their control over the partitioning between NO2 and HNO3 in regions of continuous sunlight. The steady-state description of NOx-HNO3 exchange reveals the significant influence of the tight correlation between the photolysis rate of HNO3 and [OH] established in situ measurements throughout the lower stratosphere.

Published
2001

14. Establishing the dependence of [HO2]/[OH] on temperature, halogen loading, O3, and NOx based on in the situ measurements from the NASA ER-2

Author

Lanzendorf, E. J., Wennberg, P. O., Stimpfle, R. M., Gao, R. S., Bui, T. P., Hanisco, T. F., Cohen, R. C., Anderson, J. G., and Margitan, J. J.

Subjects
United States. National Aeronautics and Space Administration -- Investigations, Ozone -- Research, Company legal issue, Chemicals, plastics and rubber industries
Abstract

In situ observations of OH and HO2 from the Airborne Southern Hemisphere Ozone Experiment/Measurements for Assessing the Effects of Stratospheric Aircraft (ASHOE/MAESA), Stratospheric TRacers of Atmospheric Transport (STRAT), and Polar Ozone Loss in the Arctic Region in Summer (POLARIS) NASA ER-2 field campaigns are used to examine the partitioning of HOx in the lower stratosphere (tropopause to ~21 km) and upper troposphere. The concentration of HO2 depends on [OH], which, to first order, was observed to be a simple function of the solar zenith angle in the lower stratosphere.

Published
2001

15. Sources, sinks, and the distribution of OH in the lower stratosphere

Author

Hanisco, T. F., Perkins, K. K., Anderson, J. G., Gao, R. S., Margitan, J. J., Wennberg, P. O., Lanzendorf, E. J., Voss, P. B., Stimpfle, R. M., Fahey, D., Cohen, R. C., Salawitch, R. J., Hintsa, E. J., Midwinter, C., and McElroy, C. T.

Subjects
United States. National Aeronautics and Space Administration -- Research, Hydroxylation -- Research, Stratosphere -- Research, Chemicals, plastics and rubber industries
Abstract

The extensive measurement campaigns by the NASA ER-2 research aircraft have obtained a nearly pole-to-pole database of the species that control HOx (OH + HO2) chemistry. The measurements in the lower stratosphere shows a remarkably tight correlation of OH concentration with the solar zenith angle (SZA).

Published
2001

17. An Aircraft-Based Upper Troposphere Lower Stratosphere O3, CO, and H2O Climatology for the Northern Hemisphere

Author

Tilmes, S, Pan, L. L, Hoor, P, Atlas, E, Avery, M. A, Campos, T, Christensen, L. E, Diskin, G. S, Gao, R.-S, Herman, R. L, Hinsta, E. J, Loewenstein, M, Lopez, J, Paige, M. E, Pittman, J. V, Podolske, J. R, Proffitt, M. R, Sachse, G. W, Schiller, C, Schlager, H, Smith, J, Spelten, N, Webster, C, Weinheimer, A, and Zondlo, M. A

Subjects
Meteorology And Climatology
Abstract

We present a climatology of O3, CO, and H2O for the upper troposphere and lower stratosphere (UTLS), based on a large collection of high ]resolution research aircraft data taken between 1995 and 2008. To group aircraft observations with sparse horizontal coverage, the UTLS is divided into three regimes: the tropics, subtropics, and the polar region. These regimes are defined using a set of simple criteria based on tropopause height and multiple tropopause conditions. Tropopause ]referenced tracer profiles and tracer ]tracer correlations show distinct characteristics for each regime, which reflect the underlying transport processes. The UTLS climatology derived here shows many features of earlier climatologies. In addition, mixed air masses in the subtropics, identified by O3 ]CO correlations, show two characteristic modes in the tracer ]tracer space that are a result of mixed air masses in layers above and below the tropopause (TP). A thin layer of mixed air (1.2 km around the tropopause) is identified for all regions and seasons, where tracer gradients across the TP are largest. The most pronounced influence of mixing between the tropical transition layer and the subtropics was found in spring and summer in the region above 380 K potential temperature. The vertical extent of mixed air masses between UT and LS reaches up to 5 km above the TP. The tracer correlations and distributions in the UTLS derived here can serve as a reference for model and satellite data evaluation

Published
2010
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18. 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
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19. Validation of Aura Microwave Limb Sounder HCl Measurements

Author

Froidevaux, L, Jiang, Y. B, Lambert, A, Livesey, N. J, Read, W. G, Waters, J. W, Fuller, R. A, Marcy, T. P, Popp, P. J, Gao, R. S, Fahey, D. W, Jucks, K. W, Stachnik, R. A, Toon, G. C, Christensen, L. E, Webster, C. R, Bernath, P. F, Boone, C. D, Walker, K. A, Pumphrey, H. C, Harwood, R. S, Manney, G. L, Schwartz, M. J, Daffer, W. H, and Drouin, B. J

Subjects
Space Sciences (General)
Abstract

The Earth Observing System (EOS) Microwave Limb Sounder (MLS) aboard the Aura satellite has provided daily global HCl profiles since August 2004. We provide a characterization of the resolution, random and systematic uncertainties, and known issues for the version 2.2 MLS HCl data. The MLS sampling allows for comparisons with many (~1500 to more than 3000) closely matched profiles from the Halogen Occultation Experiment (HALOE) and Atmospheric Chemistry Experiment Fourier Transform Spectrometer (ACE-FTS). These data sets provide HCl latitudinal distributions that are, overall, very similar to those from (coincident) MLS profiles, although there are some discrepancies in the upper stratosphere between the MLS and HALOE gradients. As found in previous work, MLS and ACE HCl profiles agree very well (within approximately 5%, on average), but the MLS HCl abundances are generally larger (by 10-20%) than HALOE HCl. The bias versus HALOE is unlikely to arise mostly from MLS, as a similar systematic bias (of order 15%) is not observed between average MLS and balloon-borne measurements of HCl, obtained over Fort Sumner, New Mexico, in 2004 and 2005. At the largest pressure (147 hPa) for MLS HCl, a high bias (approximately 0.2 ppbv) is apparent in analyses of low to midlatitude data versus in situ aircraft chemical ionization mass spectrometry (CIMS) HCl measurements from the Aura Validation Experiment (AVE) campaigns in 2004, 2005, and 2006; this bias is also observed in comparisons of MLS and aircraftHCl/O3 correlations. Good agreement between MLS and CIMS HCl is obtained at 100 to 68 hPa. The recommended pressure range for MLS HCl is from 100 to 0.15 hPa.

Published
2008
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20. Measurements of Trace Gases in the Tropical Tropopause Layer

Author

Marcy, T. P, Popp, P. J, Gao, R. S, Fahey, D. W, Ray, E. A, Richard, E. C, Thompson, T. L, Atlas, E. L, Lowenstein, M, Wofsy, S. C, Park, S, Weinstock, E. M, Swartz, W. H, and Mahoney, M. J

Subjects
Meteorology And Climatology
Abstract

A unique dataset of airborne in situ observations of HCl, O3, HNO3, H2O, CO, CO2 and CH3Cl has been made in and near the tropical tropopause layer (TTL). A total of 16 profiles across the tropopause were obtained at latitudes between 10degN and 3degs from the NASA WB-57F high-altitude aircraft flying from Costa Rica. Few in situ measurements of these gases, particularly HCl and HNO3, have been reported for the TTL. The general features of the trace gas vertical profiles are consistent with the concept of the TTL as distinct from the lower troposphere and lower stratosphere. A combination of the tracer profiles and correlations with O3 is used to show that a measurable amount of stratospheric air is mixed into this region. The HCl measurements offer an important constraint on stratospheric mixing into the TTL because once the contribution from halocarbon decomposition is quantified, the remaining HCl (>60% in this study) must have a stratospheric source. Stratospheric HCl in the TTL brings with it a proportional amount of stratospheric O3. Quantifying the sources of O3 in the TTL is important because O3 is particularly effective as a greenhouse gas in the tropopause region.

Published
2008
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21. Condensed-Phase Nitric Acid in a Tropical Subvisible Cirrus Cloud

Author

Popp, P. J, Marcy, T. P, Watts, O. A, Gao, R. S, Fahey, D. W, Weinstock, E. M, Smith, J. B, Herman, R. L, Tropy, R. F, Webster, C. r, Christensen, L. E, Baumgardner, D. G, Voigt, C, Kaercher, B, Wilson, J. C, Mahoney, M. J, Jensen, E. J, and Bui, T. P

Subjects
Meteorology And Climatology
Abstract

In situ observations in a tropical subvisible cirrus cloud during the Costa Rica Aura Validation Experiment on 2 February 2006 show the presence of condensed-phase nitric acid. The cloud was observed near the tropopause at altitudes of 16.3-17.7 km in an extremely cold (183-191 K) and dry 5 ppm H2O) air mass. Relative humidities with respect to ice ranged from 150-250% throughout most of the cloud. Optical particle measurements indicate the presence of ice crystals as large as 90 microns in diameter. Condensed RN031H20 molar ratios observed in the cloud particles were 1-2 orders of magnitude greater than ratios observed previously in cirrus clouds at similar RN03 partial pressures. Nitric acid trihydrate saturation ratios were 10 or greater during much of the cloud encounter, indicating that RN03 may be present in the cloud particles as a stable condensate and not simply physically adsorbed on or trapped in the particles.

Published
2007
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22. Single-Particle Measurements of Midlatitude Black Carbon and Light-Scattering Aerosols from the Boundary Layer to the Lower Stratosphere

Author

Schwartz, J. P, Gao, R. S, Fahey, D. W, Thomson, D. S, Watts, L. A, Wilson, J. C, Reeves, J. M, Darbeheshti, M, Baumgardner, D. G, Kok, G. L, Chung, S. H, Schulz, M, Hendricks, J, Lauer, A, Kaercher, B, Slowik, J. G, Rosenlof, K. H, Thompson, T. L, Langford, A. O, Loewenstein, M, and Aikin, K. C

Subjects
Meteorology And Climatology
Abstract

A single-particle soot photometer (SP2) was flown on a NASA WB-57F high-altitude research aircraft in November 2004 from Houston, Texas. The SP2 uses laser-induced incandescence to detect individual black carbon (BC) particles in an air sample in the mass range of approx.3-300 fg (approx.0.15-0.7 microns volume equivalent diameter). Scattered light is used to size the remaining non-BC aerosols in the range of approx.0.17-0.7 microns diameter. We present profiles of both aerosol types from the boundary layer to the lower stratosphere from two midlatitude flights. Results for total aerosol amounts in the size range detected by the SP2 are in good agreement with typical particle spectrometer measurements in the same region. All ambient incandescing particles were identified as BC because their incandescence properties matched those of laboratory-generated BC aerosol. Approximately 40% of these BC particles showed evidence of internal mixing (e.g., coating). Throughout profiles between 5 and 18.7 km, BC particles were less than a few percent of total aerosol number, and black carbon aerosol (BCA) mass mixing ratio showed a constant gradient with altitude above 5 km. SP2 data was compared to results from the ECHAM4/MADE and LmDzT-INCA global aerosol models. The comparison will help resolve the important systematic differences in model aerosol processes that determine BCA loadings. Further intercomparisons of models and measurements as presented here will improve the accuracy of the radiative forcing contribution from BCA.

Published
2006
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23. Nitric Acid Uptake on Subtropical Cirrus Cloud Particles

Author

Popp, P. J, Gao, R. S, Marcy, T. P, Fahey, D. W, Hudson, P. K, Thompson, T. L, Kaercher, B, Ridley, B. A, Weinheimer, A. J, Knapp, D. J, Montzka, D. D, Baumgardner, D, Garrett, T. J, Weinstock, E. M, Smith, J. B, Sayres, D. S, Pittman, J. V, Dhaniyala, S, Bui, T. P, and Mahoney, M. J

Subjects
Environment Pollution
Abstract

The redistribution of HNO3 via uptake and sedimentation by cirrus cloud particles is considered an important term in the upper tropospheric budget of reactive nitrogen. Numerous cirrus cloud encounters by the NASA WB-57F high-altitude research aircraft during the Cirrus Regional Study of Tropical Anvils and Cirrus Layers-Florida Area Cirrus Experiment (CRYSTAL-FACE) were accompanied by the observation of condensed-phase HNO3 with the NOAA chemical ionization mass spectrometer. The instrument measures HNO3 with two independent channels of detection connected to separate forward and downward facing inlets that allow a determination of the amount of HNO3 condensed on ice particles. Subtropical cirrus clouds, as indicated by the presence of ice particles, were observed coincident with condensed-phase HNO3 at temperatures of 197-224 K and pressures of 122-224 hPa. Maximum levels of condensed-phase HNO3 approached the gas-phase equivalent of 0.8 ppbv. Ice particle surface coverages as high as 1.4 # 10(exp 14) molecules/ square cm were observed. A dissociative Langmuir adsorption model, when using an empirically derived HNO3 adsorption enthalpy of -11.0 kcal/mol, effectively describes the observed molecular coverages to within a factor of 5. The percentage of total HNO3 in the condensed phase ranged from near zero to 100% in the observed cirrus clouds. With volume-weighted mean particle diameters up to 700 ?m and particle fall velocities up to 10 m/s, some observed clouds have significant potential to redistribute HNO3 in the upper troposphere.

Published
2004
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24. The Detection of Large HNO3-Containing Particles in the Winter Arctic Stratosphere

Author

Fahey, D. W., Gao, R. S., Carslaw, K. S., Kettleborough, J., Popp, P. J., Northway, M. J., Holecek, J. C., Ciciora, S. C., McLaughlin, R. J., Thompson, T. L., Winkler, R. H., Baumgardner, D. G., Gandrud, B., Wennberg, P. O., Dhaniyala, S., McKinney, K., Peter, Th., Salawitch, R. J., Bui, T. P., Elkins, J. W., Webster, C. R., Atlas, E. L., Jost, H., Wilson, J. C., Herman, R. L., Kleinböhl, A., and von König, M.

Published
2001

25. Establishing the Dependence of [HO2]/[OH] on Temperature, Halogen Loading, O3, and NO(x) Based on in Situ Measurements from the NASA ER-2

Author

Lanzendorf, E. J, Hanisco, T. F, Wennberg, P. O, Cohen, R. C, Stimpfle, R. M, Anderson, J. G, Gao, R. S, Margitan, J. J, and Bui, T. P

Subjects
Environment Pollution
Abstract

In situ observations of OH and HO2 from the Airborne Southern Hemisphere Ozone Experiment/Measurements for Assessing the Effects of Stratospheric Aircraft (ASHOE/MAESA), Stratospheric TRacers of Atmospheric Transport (STRAT), and Polar Ozone Loss in the Arctic Region in Summer (POLARIS) NASA ER-2 field campaigns are used to examine the partitioning of HO(x) in the lower stratosphere (tropopause to approx.21 km) and upper troposphere (approx.10 km to tropopause). These measurements span a latitude range from 70degS to 90degN and a variety of atmospheric conditions as a result of seasonal changes and altitude. The response of the observed [HO2]/[OH] to changes in temperature, [03], [CO], [NO], [CIO], and [BrO] is investigated. The measured ratio is accurately described (approx.+/-10%) by a steady-state model constrained by the measured mixing ratios of O3, CO, NO, CIO, and BrO, where the model is valid for conditions of HO(x) cycling much faster than HO(x) production and loss. The concentration of HO2 depends on [OH], which, to first order, has been observed to be a simple function of the solar zenith angle in the lower stratosphere. The partitioning between OH and HO2 is controlled by the local chemistry between the HO, radicals and O3, CO, NO, CIO, and BrO. The response of [HO(x)] to changes in [NO(x)] and [O3] is demonstrated. Further observations are necessary to illustrate the response of HO(x) to changes in halogen concentrations. A quantitative understanding of [HO2]/[OH] is important, since many of the reactions that control this ratio are directly involved in catalytic removal of O3 in the lower stratosphere and production of O3 in the upper troposphere.

Published
2001
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26. A Bird’s Eye View: Development of an Operational ARM Unmanned Aerial Systems Capability for Atmospheric Research in Arctic Alaska

Author

de Boer, G, Ivey, M, Schmid, B, Lawrence, D, Dexheimer, D, Mei, F, Hubbe, J, Bendure, A, Hardesty, J, Shupe, MD, McComiskey, A, Telg, H, Schmitt, C, Matrosov, SY, Brooks, IM, Cremean, J, Solomon, A, Turner, DD, Williams, C, Maahn, M, Argrow, B, Palo, S, Long, CN, Gao, R-S, and Mather, J

Abstract

Unmanned aerial capabilities offer exciting new perspectives on the Arctic atmosphere and the US Department of Energy is working with partners to offer such perspectives to the research community. Thorough understanding of aerosols, clouds, boundary layer structure and radiation is required to improve representation of the Arctic atmosphere in weather forecasting and climate models. To develop such understanding, new perspectives are needed to provide details on the vertical structure and spatial variability of key atmospheric properties, along with information over difficult-to-reach surfaces such as newly-forming sea ice. Over the last three years, the US Department of Energy (DOE) has supported various flight campaigns using unmanned aircraft systems (UAS, also known as UAVs and drones) and tethered balloon systems (TBS) at Oliktok Point, Alaska. These activities have featured in-situ measurements of thermodynamic state, turbulence, radiation, aerosol properties, cloud microphysics and turbulent fluxes to provide a detailed characterization of the lower atmosphere. Alongside a suite of active and passive ground-based sensors and radiosondes deployed by the DOE Atmospheric Radiation Measurement (ARM) program through the third ARM Mobile Facility (AMF-3), these flight activities demonstrate the ability of such platforms to provide critically-needed information. In addition to providing new and unique datasets, lessons learned during initial campaigns have assisted toward the development of an exciting new community resource.

Published
2018

27. An NOy Algorithm for Arctic Winter 2000

Author

Loewenstein, M, Jost, H, Greenblatt, J. B, Podolske, J. R, Gao, R. S, Popp, P. J, Toon, G. C, Webster, C. R, Herman, R. L, Hurst, D. F, and Hipskind, R. Stephen

Subjects
Environment Pollution
Abstract

NOy, total reactive nitrogen, and the long-lived tracer N2O, nitrous oxide, were measured by both in situ and remote sensing instruments during the Arctic winter 1999-2000 SAGE III Ozone Loss and Validation Experiment (SOLVE). The correlation function NOy:N2O observed before the winter Arctic vortex forms, which is known as NOy(sup), is an important reference relationship for conditions in the evolving vortex. NOy(sup) can, with suitable care, be used to quantify vortex denitrification by sedimentation of polar stratospheric cloud particles when NOy data is taken throughout the winter. Observed NOy values less than the reference value can be interpreted in terms of semi-permanent removal of active nitrogen by condensation and sedimentation processes. In this paper we present a segmented function representing NOy(sup) applicable over the full range of altitudes sampled during SOLVE. We also assess the range of application of this function and some of its limitations.

Published
2000

28. The Coupling of ClONO2, ClO, and NO2 in the Lower Stratosphere From in Situ Observations Using the NASA ER-2 Aircraft

Author

Stimpfle, R. E, Cohen, R. C, Bonne, G. P, Voss, P. B, Perkins, K. K, Koch, L. C, Anderson, J. G, Salawitch, R. J, and Gao, R. S

Subjects
Geophysics
Abstract

The first in situ measurements of ClONO2 in the lower stratosphere, acquired using the NASA ER-2 aircraft during the Polar Ozone Loss in the Arctic Region in Summer (POLARIS) mission, are combined with simultaneous measurements of ClO, NO2, temperature, pressure, and the calculated photolysis rate coefficient (J(sub ClONO2)) to examine the balance between production and loss of ClONO2. The observations demonstrate the ClONO2 photochemical steady state measurement, [ClONO2](sup PSS) = k[ClO][No2]/J(sub ClONO2), is in good agreement with the direct measurement, [ClONO2](sup MEAS). For the bulk of the data (80%), where T > 220 K and latitudes > 45 N, [ClONO2](sup PPS) = 1.15 +/- 0.36(1-sigma)[ClONO2](sup MEAS), while for T< 220 K and latitudes < 45 N, the result is somewhat less at 1.01 +/- 0.30. The cause of the temperature and/or latitude trend is unidentified. These results are independent of solar zenith angle and air density, thus there is no evidence in support of a pressure-dependent quantum yield for photodissociation of ClONO2 at wavelengths > 300 nm. These measurements confirm the mechanism by which active nitrogen (NOx = NO + NO2) controls the abundance of active chlorine (Clx = ClO + Cl) in the stratosphere.

Published
1999
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29. A Comparison of Observations and Model Simulations of NO(x)/NO(y) in the Lower Stratosphere

Author

Gao, R. S, Fahey, D. W, DelNegro, L. A, Donnelly, S. G, Keim, E. R, Neuman, J. A, Teverovskaia, E, Wennberg, P. O, Hanisco, T. F, and Lanzendorf, E. J

Subjects
Environment Pollution
Abstract

Extensive airborne measurements of the reactive nitrogen reservoir (NOY) and its component nitric oxide (NO) have been made in the lower stratosphere. Box model. simulations that are constrained by observations of radical and longlived species and which include heterogeneous chemistry systematically underpredict the NO(x) (= NO + NO2) to NOY ratio. The model agreement is substantially improved if newly measured rate coefficients for the OH + NO2 and OH + HNO3 reactions are used. When included in 2-D models, the new rate coefficients significantly increase the calculated ozone loss due to NO(x) and modestly change the calculated ozone abundances in the lower stratosphere. Ozone changes associated with the emissions of a fleet of supersonic aircraft are also altered. phase chemistry linking NO(x) and nitric acid (HNO3), which is generally the most abundant NOY species. Because the continuous daylight present at summer high latitudes limits the heterogeneous production of HNO3 by N2O5 hydrolysis, gas-phase reactions primarily control the balance between NO(x) and NO(y). Outside summer polar regions, the N2O5 hydrolysis reaction occurring on stratospheric sulfate aerosols is a more important sink of NO(x), particularly in the lower stratosphere during winter when heterogeneous pathways account for most of the HNO3 production.

Published
1999
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30. The Influence of Airmass Histories on Radical Species during POLARIS

Author

Pierson, J. M, Kawa, S. R, Salawitch, R. J, Hanisco, T. F, Lanzendorf, E. J, Perkins, K. K, Gao, R. S, and Cohen, R. C

Subjects
Environment Pollution
Abstract

The Goddard trajectory chemistry model was used with ER-2 aircraft data to test our current knowledge of radical photochemistry during the POLARIS (Polar Ozone Loss in the Arctic Region In Summer) campaign. The results of the trajectory chemistry model with and without trajectories are used to identify cases where steady state does not accurately describe the measurements. Over the entire mission, using trajectory chemistry reduces the variability in the modeled NO(x) comparisons to data by 25% with respect to the same model simulating steady state. Although the variability is reduced, NO(x)/NO(y) trajectory model results were found to be systematically low relative to the observations by 20-30% as seen in previous studies. Using new rate constants for reactions important in NO(y) partitioning improves the agreement of NO(x)/NO(y) with the observations but a 5-10% bias still exists. OH and HO2 individually are underpredicted by 15% of the standard steady state model and worsen with the new rate constants. Trajectory chemistry model results of OH/HO2 were systematically low by 10-20% but improve using the new rates constants because of the explicit dependence on NO. This suggests that our understanding of NO(x) is accurate to the 20% level and HO(x) chemistry is accurate to the 30% level in the lower stratosphere or better for the POLARIS regime. The behavior of the NO(x) and HO(x) comparisons to data using steady state versus trajectory chemistry and with updated rate coefficients is discussed in ten-ns of known chemical mechanisms and lifetimes.

Published
1999

31. Hydrogen Radicals, Nitrogen Radicals, and the Production of O3 in the Upper Troposphere

Author

Wennberg, P. O., Hanisco, T. F., Jaegle, L., Jacob, D. J., Hintsa, E. J., Lanzendorf, E. J., Anderson, J. G., Gao, R.-S., Keim, E. R., Donnelly, S. G., Negro, L. A. Del, Fahey, D. W., McKeen, S. A., Salawitch, R. J., Webster, C. R., May, R. D., Herman, R. L., Proffitt, M. H., Margitan, J. J., Atlas, E. L., Schauffler, S. M., Flocke, F., McElroy, C. T., and Bui, T. P.

Published
1998

32. The Partitioning of NO(sub y) Species in the Summer Arctic Stratosphere

Author

Osterman, G. B, Sen, B, Toon, G. C, Salawitch, R. J, Margitan, J. J, Blavier, J. F, Fahey, D. W, and Gao, R. S

Subjects
Earth Resources And Remote Sensing
Abstract

Volume mixing ratio profiles of the quantitatively significant NOy species NO, NO2, HNO3, HNO4, CINO3 and N2O5 were measured remotely form 8 to 38 km by the JPL MkIV FTIR solar absorption spectrometer during balloon flights from Fairbanks, Alaska on May 8 and July 8, 1997.

Published
1998

33. Ozone Budgets from a Global Chemistry/Transport Model and Comparison to Observations from POLARIS

Author

Kawa, S. Randolph, Newman, P. A, Douglass, A. R, Weaver, C. J, Gao, R.-S, Salawitch, R. J, Johnson, D. G, and Jucks, K. W

Subjects
Environment Pollution
Abstract

The objective of the Photochemistry of Ozone Loss in the Arctic Region in Summer (POLARIS) field mission was to obtain data to better characterize the summertime seasonal decrease of ozone at mid to high latitudes. The decrease in ozone occurs mainly in the lower stratosphere and is expected to result from in situ chemical destruction. Instrumented balloons and aircraft were used in POLARIS, along with satellites, to measure ozone and chemical species which are involved with stratospheric ozone chemistry. In order to close the seasonal ozone budget, however, ozone transport must also be estimated. Comparison to a global chemistry and transport model (CTM) of the stratosphere indicates how well the summertime ozone loss processes are simulated and thus how well we can predict the ozone response to changing amounts of chemical source gases. Moreover, the model gives insight into the possible relative magnitude of transport contributions to the seasonal ozone decline. Initial comparison to the Goddard CTM, which uses transport winds and temperatures from meteorological data assimilation, shows a high ozone bias in the model and an attenuated summertime ozone loss cycle. Comparison of the model chemical partitioning and ozone catalytic loss rates to those derived from measurements shows fairly close agreement both at ER-2 altitudes (20 km) and higher. This suggests that the model transport is too active in resupplying ozone to the high latitude region, although chemistry failings cannot be completely ruled out. Comparison of ozone and related species will be shown along with a full diagnosis of the model ozone budget and its possible sources of error.

Published
1998

34. The Role of HOx in Super-and Subsonic Aircraft Exhaust Plumes

Author

Hanisco, T. F, Wennberg, P. O, Cohen, R. C, Anderson, J. G, Fahey, D. W, Keim, E. R, Gao, R. S, Wamsley, R. C, Donnelly, S. G, and DelNegro, L. A

Subjects
Environment Pollution
Abstract

The generation of sulfuric acid aerosols in aircraft exhaust has emerged as a critical issue in determining the impact of supersonic aircraft on stratospheric ozone. It has long been held that the first step in the mechanism of aerosol formation is the oxidation of SO2 emitted from the engine by OH in the exhaust plume. We report in situ measurements of OH and HO2 in the exhaust plumes of a supersonic (Air France Concorde) and a subsonic (NASA ER-2) aircraft in the lower stratosphere. These measurements imply that reactions with OH are responsible for oxidizing only a small fraction of SO2 (2%), and thus cannot explain the large number of particles observed in the exhaust wake of the Concorde.

Published
1997
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35. A Comparison of Measurements from ATMOS and Instruments Aboard the ER-2 Aircraft: Halogenated Gases

Author

Chang, A. Y, Salawitch, R. J, Michelsen, H. A, Gunson, M. R, Abrams, M. C, Zander, R, Rinsland, C. P, Elkins, J. W, Dutton, G. S, Volk, C. M, Webster, C. R, May, R. D, Fahey, D. W, Gao, R.-S, and Loewenstein, M

Subjects
Geophysics
Abstract

We compare volume mixing ratio profiles of N2O, CFC-11, CFC-12, CCl4, SF6, and HCl in the mid-latitude lower stratosphere measured by the ATMOS Fourier transform spectrometer on the ATLAS-3 Space Shuttle Mission with in situ measurements acquired from the NASA ER-2 aircraft during Nov. 1994. Good agreement is found between ATMOS and in situ correlations of [CFC-11], [CFC-12], and [SF6] with [N2O]. ATMOS measurements of [CCl4] are 15% high compared to ER-2 data, but agree within the systematic uncertainties. ATMOS observations of [HCl] vs [N2O] are within approximately 10% of ER-2 data for [HCl] > 1 ppbv, but exceed in situ measurements by larger fractional amounts for smaller [HCl]. ATMOS measurements of [ClONO2] agree well with values inferred from in situ observations of [ClO], [NO], and [O3]. The sum of [HCl] and [ClONO2] observed by ATMOS, supplemented by a minor contribution from [ClO] estimated with a photochemical model, is consistent with the levels of inorganic chlorine inferred from in situ measurements of chlorine source gases.

Published
1996
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36. A Comparison of Measurements from ATMOS and Instruments Aboard the ER-2 Aircraft: Tracers of Atmospheric Transport and Halogenated Gases

Author

Chang, A. Y, Salawitch, R. J, Michelsen, H. A, Gunson, M. R, Abrams, M. C, Zander, R, Rinsland, C. P, Loewenstein, M, Podolske, J. R, Proffitt, M. H, Margitan, J. J, Fahey, D. W, Gao, R.-S, Kelly, K. K, Elkins, J. W, Webster, C. R, May, R. D, Chan, K. R, Abbas, M. M, and Goldman, A

Subjects
Environment Pollution
Abstract

We compare volume mixing ratio profiles of N2O, O3, NO(y), H2O, CH4, and CO in the mid-latitude lower stratosphere measured by the ATMOS Fourier transform spectrometer on the ATLAS-3 Space Shuttle Mission with in situ measurements acquired from the NASA ER-2 aircraft during Nov 1994. ATMOS and ER-2 observations of (N2O) show good agreement, as do measured correlations of (O3), (NO(y)), (H2O), and (CH4) with (N2O). Thus a consistent measure of the hydrogen (H2O, CH4) content of the lower stratosphere is provided by the two platforms. The similarity of (NO(y)) determined by detection of individual species by ATMOS and the total (NOy) measurement on the ER-2 provides strong corroboration for the accuracy of both techniques. A 25% discrepancy in lower stratospheric (CO) observed by ATMOS and the ER-2 remains unexplained. Otherwise, the agreement for measurements of long-lived tracers demonstrates the ability to combine ATMOS data with in situ observations for quantifying atmospheric transport.

Published
1996

37. A Comparison of Measurements from ATMOS and Instruments Aboard the ER-2 Aircraft: Tracers of Atmospheric Transport

Author

Chang, A. Y, Salawitch, R. J, Michelsen, H. A, Gunson, M. R, Abrams, M. C, Zander, R, Rinsland, C. P, Loewenstein, M, Podolske, J. R, Proffitt, M. H, Margitan, J. J, Fahey, D. W, Gao, R.-S, Kelly, K. K, Elkins, J. W, Webster, C. R, May, R. D, Chan, K. R, Abbas, M. M, and Goldman, A

Subjects
Geophysics
Abstract

We compare volume mixing ratio profiles of N2O, O3, NO(y) H2O, CH4, and CO in the mid-latitude lower stratosphere measured by the ATMOS Fourier transform spectrometer on the ATLAS-3 Space Shuttle Mission with in situ measurements acquired from the NASA ER-2 aircraft during Nov 1994. ATMOS and ER-2 observations of [N2O] show good agreement, as do measured correlations of [O3], [NO(y)], [H2O], and [CH4] with [N2O]. Thus a consistent measure of the hydrogen (H2O, CH4) content of the lower stratosphere is provided by the two platforms. The similarity of [NO(y)] determined by detection of individual species by ATMOS and the total [NO(y)] measurement on the ER-2 provides strong corroboration for the accuracy of both techniques. A 25% discrepancy in lower stratospheric [CO] observed by ATMOS and the ER-2 remains unexplained. Otherwise, the agreement for measurements of long-lived tracers demonstrates the ability to combine ATMOS data with in situ observations for quantifying atmospheric transport.

Published
1996
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38. Stratospheric NO and NO2 Abundances from ATMOS Solar-Occultation Measurements

Author

Newchurch, M. J, Allen, M, Gunson, M. R, Salawitch, R. J, Collins, G. B, Huston, K. H, Abbas, M. M, Abrams, M. C, Chang, A. Y, Fahey, D. W, Gao, R. S, Irion, F. W, Lowenstein, M, Manney, G. L, Michelsen, H. A, Podolske, J. R, Rinsland, C. P, and Zander, R

Subjects
Environment Pollution
Abstract

Using results from a time-dependent photochemical model to calculate the diurnal variation of NO and NO2, we have corrected Atmospheric Trace MOlecule Spectroscopy (ATMOS) solar-occultation retrievals of the NO and NO2 abundances at 90' solar zenith angle. Neglecting to adjust for the rapid variation of these gases across the terminator results in potential errors in retrieved profiles of approximately 20% for NO2 and greater than 100% for NC at altitudes below 25 km. Sensitivity analysis indicates that knowledge of the local 03 and temperature profiles, rather than zonal mean or climatological conditions of these quantities, is required to obtain reliable retrievals of NO and NO2 in the lower stratosphere. Extremely inaccurate 03 or temperature values at 20 km can result in 50% errors in retrieved NO or NO2. Mixing ratios of NO in the mid-latitude, lower stratosphere measured by ATMOS during the November 1994 ATLAS-3 mission compare favorably with in situ ER-2 observations, providing strong corroboration of the reliability of the adjusted space-borne measurements.

Published
1996

39. A Comparison of Measurements from ATMOS and Instruments Aboard the ER-2 Aircraft: Halogenated Gases

Author

Stiller, G. P, Newchurch, M. J, Manney, G. L, Irion, F. W, Goldman, A, Abbas, M. M, Chan, K. R, Margitan, J. J, Proffitt, M. H, Kohn, D. W, Stimpfle, R. M, Podolske, J. R, Lowenstein, M, Gao, R. S, Fahey, D. W, May, R. D, Webster, C. R, Volk, C. M, Dutton, G. S, Elkins, J. W, Rinsland, C. P, Zander, R, Abrams, M. C, Gunson, M. R, Michelsen, H. A, Salawitch, R. J, and Chang, A. Y

Abstract

We compare the mixing rations of N2O, CFC-11, CFC-12, CCI4, SF6, and HCI in the mid-latitude stratosphere measured by the ATMOS Fourier transform spectrometer with in situ measurements acquired aboard the NASA ER-2 aircraft during November 1994. Good agreement is found between ATMOS and in situ correlations of CFC-11, CFC-12, and SF6 with N2O. ATMOS observations of CCI4 are approx. 15 percent higher than the ER-2 data, but within the systematic uncertainties.

Published
1996

40. Stratospheric NO and NO(sub 2) Abundances from ATMOS Solar-Occultation Measurements

Author

Newchurch, M. J, Allen, M, Gunson, M. R, Salawitch, R. J, Collins, G. B, Huston, K. H, Abbas, M. M, Abrams, M. C, Chang, A. Y, Fahey, D. W, Gao, R. S, Irion, F. W, Lowenstein, M, Manney, G. L, Michelsen, H. A, Podolske, J. R, Rinsland, C. P, and Zander, R

Abstract

Using results from a time-dependent photochemical model to calculate the diurnal variation of NO and NO(sub 2), we have corrected Atmospheric Trace Molecule Spectroscopy (ATMOS) solar-occultation retrievals of the NO and NO(sub 2) abundances at 90 solar zenith angle. Neglecting to adjust for the rapid variation of these gases across the terminator results in potential errors in retrieved profiles of approx. 20 percent for NO(sub 2) and greater than 100 percent for NO at altitudes below 25 KM.

Published
1996

41. In situ observations in aircraft exhaust plumes in the lower stratosphere at midlatitudes

Author

Fahey, D. W, Keim, E. R, Woodbridge, E. L, Gao, R. S, Boering, K. A, Daube, B. C, Wofsy, S. C, Lohmann, R. P, Hintsa, E. J, and Dessler, A. E

Subjects
Environment Pollution
Abstract

Instrumentation on the NASA ER-2 high-altitude aircraft has been used to observe engine exhaust from the same aircraft while operating in the lower stratosphere. Encounters with the exhaust plume occurred approximately 10 min after emission with spatial scales near 2 km and durations of up to 10 s. Measurements include total reactive nitrogen, NO(y), the component species NO and NO2, CO2, H2O, CO, N2O, condensation nuclei, and meteorological parameters. The integrated amounts of CO2 and H2O during the encounters are consistent with the stoichiometry of fuel combustion (1:1 molar). Emission indices (EI) for NO(x) (= NO + NO2), CO, and N2O are calculated using simultaneous measurements of CO2. EI values for NO(x) near 4 g/(kg fuel) are in good agreement with values scaled from limited ground-based tests of the ER-2 engine. Non-NO(x) species comprise less than about 20% of emitted reactive nitrogen, consistent with model evaluations. In addition to demonstrating the feasibility of aircraft plume detection, these results increase confidence in the projection of emissions from current and proposed supersonic aircraft fleets and hence in the assessment of potential long-term changes in the atmosphere.

Published
1995
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42. The distribution of hydrogen, nitrogen, and chlorine radicals in the lower stratosphere: Implications for changes in O3 due to emission of NO(y) from supersonic aircraft

Author

Salawitch, R. J, Wofsy, S. C, We-Nnberg, P. O, Cohen, R. C, Anderson, J. G, Fahey, D. W, Gao, R. S, Keim, E. R, Woodbridge, E. L, and Stimpfle, R. M

Subjects
Geophysics
Abstract

In situ measurements of hydrogen, nitrogen, and chlorine radicals obtained in the lower statosphere during SPADE are compared to results from a photochemical model that assimilates measurements of radical precursors and environmental conditions. Models allowing for heterogeneous hydrolysis of N2O5 agree well with measured concentrations of NO and ClO, but concentrations of HO2 and OH are underestimated by 10 to 25%, concentrations of NO2 are overestimated by 10 to 30%, and concentrations of HCl are overestimated by a factor of 2. Discrepancies for (OH) and (HO2) are reduced if we allow for higher yields of O((1)D) from O2 photolysis and for heterogeneous production of HNO2. The data suggest more efficent catalytic removal of O3 by hydrogen and halogen radicals relative to nitrogen oxide radicals than predicted by models using recommendend rates and cross sections. Increased in (O3) in the lower stratosphere may be larger in response to inputs of NO(y) from supersonic aircraft than estimated by current assessment models.

Published
1994
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43. In situ measurements of the NO2/NO ratio for testing atmospheric photochemical models

Author

Jaegle, L, Webster, C. R, May, R. D, Fahey, D. W, Woodbridge, E. L, Keim, E. R, Gao, R. S, Proffitt, M. H, Stimpfle, R M, and Salawitch, R. J

Subjects
Geophysics
Abstract

Simultaneous in situ measurements of NO2, NO, O3, ClO, pressure and temperature have been made for the first time, presenting a unique opportunity to test our current understanding of the photochemistry of the lower stratospere. Data were collected from several flights of the ER-2 aircraft at mid-latitudes in May 1993 during NASA's Stratospheric Photochemistry, Aerosols and Dynamics Expedition (SPADE). The daytime ratio of NO2/NO remains fairly constant at 19 km with a typical value of 0.68 and standard deviation of +/- 17. The ratio observations are compared with simple steady-state calculations based on laboratory-measured reaction rates and modeled NO2 photolysis rates. At each measurement point the daytime NO2/NO with its measurements uncertainty overlap the results of steady-state caculations and associated uncertainty. Possible sources of error are examined in both model and measurements. It is shown that more accurate laboratory determinations of the NO + 03 reaction rate and of the NO2 cross-sections in the 200-220 K temperature range characteristic of the lower stratosphere would allow for a more robust test of our knowledge of NO(X) phtochemistry by reducing significant sources if uncertainties in the interpretation of statospheric measurements.

Published
1994
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44. New photolysis system for NO2 measurements in the lower stratosphere

Author

Gao, R. S, Keim, E. R, Woodbridge, E. L, Ciciora, S. J, Proffitt, M. H, Thompson, T. L, Mclaughlin, R. J, and Fahey, D. W

Subjects
Environment Pollution
Abstract

A new system for NO2 detection has been developed for use on the NASA ER-2 aircraft. The system converts NO2 to NO using UV photolysis with the NO product subsequently detected with an on-board chemiluminescence detector. The new system is compact, light weight, has high time resolution (approximately 1 s), and is significantly more efficient then some previous designs. Details of the system design and airborne performance are discussed.

Published
1994
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45. In situ observations in aircraft exhaust plumes in the lower stratosphere at mid-latitudes

Author

Fahey, David W, Keim, E. R, Woodbridge, E. L, Gao, R. S, Boering, K. A, Daube, B. C, Wofsy, S. C, Lohmann, R. P, Hinsta, E. J, and Lowenstein, M

Subjects
Environment Pollution
Abstract

The effect of NO(x) (NO + NO2) from aircraft engine exhaust on ozone and climate is of increasing concern as a result of anticipated growth in the world's subsonic aircraft fleet and new international efforts to build a supersonic transport (SST). Knowledge of NO(x) emissions currently relies on limited ground based testing of combustors and engines and on scaling relations to extrapolate emission values to upper atmosphere conditions. Direct observations made in the engine exhaust plume of the NASA ER-2 high altitude aircraft cruising at subsonic speeds in the lower midlatitude stratosphere are presented. Results demonstrate the technical feasibility of detecting aircraft plumes within minutes after emission with sufficient completeness and precision to calculate emission indices for reactive nitrogen and other species. Furthermore, the combined results increase confidence in using ground based observations to assess the atmospheric impact of some aircraft emissions.

Published
1994

46. Experimental and theoretical studies of the He(2+)-He system - Differential cross sections for direct, single-, and double-charge-transfer scattering at keV energies

Author

Gao, R. S, Dutta, C. M, Lane, N. F, Smith, K. A, Stebbings, R. F, and Kimura, M

Subjects
Atomic And Molecular Physics
Abstract

Measurements and calculations of differential cross sections for direct scattering, single-charge transfer, and double-charge transfer in collisions of 1.5-, 2.0-, 6.0-, and 10.0-keV (He-3)2+ with an He-4 target are reported. The measurements cover laboratory scattering angles below 1.5 deg with an angular resolution of about 0.03 deg. A quantum-mechanical molecular-state representation is employed in the calculations; in the case of single-charge transfer a two-state close-coupling calculation is carried out taking into account electron-translation effects. The theoretical calculations agree well with the experimental results for direct scattering and double-charge transfer. The present calculation identifies the origins of oscillatory structures observed in the differential cross sections.

Published
1992
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47. Absolute differential cross sections for electron capture and loss by kilo-electron-volt hydrogen atoms

Author

Smith, G. J, Johnson, L. K, Gao, R. S, Smith, K. A, and Stebbings, R. F

Subjects
Atomic And Molecular Physics
Abstract

This paper reports measurements of absolute differential cross sections for electron capture and loss for fast hydrogen atoms incident on H2, N2, O2, Ar, and He. Cross sections have been determined in the 2.0- to 5.0-keV energy range over the laboratory angular range 0.02-2 deg, with an angular, resolution of 0.02 deg. The high angular resolution allows observation of the structure at small angles in some of the cross sections. Comparison of the present results with those of other authors generally shows very good agreement.

Published
1991
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49. Correlation between donor defects and ferromagnetism in insulating Sn1-xCoxO2 films.

Author

Liu, X. F., Iqbal, Javed, Gong, W. M., Yang, S. L., Gao, R. S., Zeng, F., Yu, R. H., He, B., Hao, Y. P., and Hao, X. P.

Subjects
FERROMAGNETISM, METALLIC films, MAGNETIC properties, POSITRON annihilation, EXTENDED X-ray absorption fine structure
Abstract

Sn1-xCoxO2 films have been fabricated to study the local structure of Co dopant and the mediation effects of donor defects (oxygen vacancies and Sn interstitials) on magnetic properties. Compared to as-grown film, the ferromagnetism is evidently enhanced after annealing in vacuum at 400 °C due to the increase in oxygen vacancies. While annealing at higher temperature, the ferromagnetism declines because of the domination of decrease in Sn interstitials over increase in oxygen vacancies in the films. The incorporation of Co dopant as well as the presence of oxygen vacancies and Sn interstitials is verified using x-ray absorption fine structure spectroscopy. The variations in the concentration of defects as a function of annealing temperature are obtained by positron annihilation spectroscopy technique. Additionally, the changes in structure and ferromagnetism after annealing in different atmospheres further demonstrate the crucial roles of oxygen vacancies and Sn interstitials in tuning ferromagnetism. [ABSTRACT FROM AUTHOR]

Published
2009
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50. The role of sulfur dioxide in stratospheric aerosol formation evaluated by using in situ measurements in the tropical lower stratosphere

Author

Rollins, A. W., primary, Thornberry, T. D., additional, Watts, L. A., additional, Yu, P., additional, Rosenlof, K. H., additional, Mills, M., additional, Baumann, E., additional, Giorgetta, F. R., additional, Bui, T. V., additional, Höpfner, M., additional, Walker, K. A., additional, Boone, C., additional, Bernath, P. F., additional, Colarco, P. R., additional, Newman, P. A., additional, Fahey, D. W., additional, and Gao, R. S., additional

Published
2017
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