G. Pavese scite author profile

Soot particles form during combustion of carbonaceous materials and impact climate and air quality. When freshly emitted, they are typically fractal-like aggregates. After atmospheric aging, they can act as cloud condensation nuclei, and water condensation or evaporation restructure them to more compact aggregates, affecting their optical, aerodynamic, and surface properties. Here we survey the morphology of ambient soot particles from various locations and different environmental and aging conditions. We used electron microscopy and show extensive soot compaction after cloud processing. We further performed laboratory experiments to simulate atmospheric cloud processing under controlled conditions. We find that soot particles sampled after evaporating the cloud droplets, are significantly more compact than freshly emitted and interstitial soot, confirming that cloud processing, not just exposure to high humidity, compacts soot. Our findings have implications for how the radiative, surface, and aerodynamic properties, and the fate of soot particles are represented in numerical models.

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Retrieval of foreign-broadened water vapor continuum coefficients from emitted spectral radiance in the H_2O rotational band from 240 to 590 cm^-1

Serio¹,

Masiello²,

Esposito³

et al. 2008

Opt. Express

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The paper presents a novel methodology to retrieve the foreign-broadened water vapor continuum absorption coefficients in the spectral range 240 to 590 cm(-1) and is the first estimation of the continuum coefficient at wave numbers smaller than 400 cm(-1) under atmospheric conditions. The derivation has been accomplished by processing a suitable set of atmospheric emitted spectral radiance observations obtained during the March 2007 Alps campaign of the ECOWAR project (Earth Cooling by WAter vapor Radiation). It is shown that, in the range 450 to 600 cm(-1), our findings are in good agreement with the widely used Mlawer, Tobin-Clough, Kneizys-Davies (MT CKD) continuum. Below 450 cm(-1) however the MT CKD model overestimates the magnitude of the continuum coefficient.

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Aerosol columnar properties retrieved from CIMEL radiometers during VELETA 2002

Alados-Arboledas

Alcántara

Olmo

et al. 2008

Atmospheric Environment

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Spectrally resolved observations of atmospheric emitted radiance in the H₂O rotation band

Bhawar

Bianchini

Bozzo

et al. 2008

Geophysical Research Letters

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[1] This paper presents the project Earth Cooling by Water Vapor Radiation, an observational programme, which aims at developing a database of spectrally resolved far infrared observations, in atmospheric dry conditions, in order to validate radiative transfer models and test the quality of water vapor continuum and line parameters. The project provides the very first set of far-infrared spectral downwelling radiance measurements, in dry atmospheric conditions, which are complemented with Raman Lidar-derived temperature and water vapor profiles. Citation: Bhawar, R., et al. (2008), Spectrally resolved observations of atmospheric emitted radiance in the H 2 O rotation band, Geophys. Res. Lett., 35, L04812,

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G. Pavese

Spatial and seasonal variability of carbonaceous aerosol across Italy

Extensive Soot Compaction by Cloud Processing from Laboratory and Field Observations

Retrieval of foreign-broadened water vapor continuum coefficients from emitted spectral radiance in the H_2O rotational band from 240 to 590 cm^-1

Aerosol columnar properties retrieved from CIMEL radiometers during VELETA 2002

Spectrally resolved observations of atmospheric emitted radiance in the H₂O rotation band

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About

G. Pavese

Spatial and seasonal variability of carbonaceous aerosol across Italy

Extensive Soot Compaction by Cloud Processing from Laboratory and Field Observations

Retrieval of foreign-broadened water vapor continuum coefficients from emitted spectral radiance in the H_2O rotational band from 240 to 590 cm^-1

Aerosol columnar properties retrieved from CIMEL radiometers during VELETA 2002

Spectrally resolved observations of atmospheric emitted radiance in the H2O rotation band

Contact Info

Product

Resources

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Spectrally resolved observations of atmospheric emitted radiance in the H₂O rotation band