Strong spectral variation of biomass smoke light absorption and single scattering albedo observed with a novel dual‐wavelength photoacoustic instrument

Lewis, K.; Arnott, W. P.; Moosmüller, Hans; Wold, Cyle

doi:10.1029/2007jd009699

Cited by 319 publications

(353 citation statements)

References 45 publications

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“…However, after coating, the AAE becomes less sensitive to RI real part, but more sensitive to RI imaginary part. Considering the significant uncertainty in estimated BC RI due to 10 differences on combustion fuels and conditions as well as whether BC is fresh or aged, it is highly questionable to use a fixed AAE value as in past studies (Lack and Langridge, 2013;Lack et al, 2008;Kirchstetter et al, 2004;Lewis et al, 2008).…”

Section: Bc Aae 15mentioning

confidence: 99%

“…Furthermore, it is not clear if the real 25 BC AAE is 1.0 on the average. Despite all these uncertainties, BC AAE has been assumed to be 1.0 in many studies (Lack and Langridge, 2013;Lack et al, 2008;Kirchstetter et al, 2004;Lewis et al, 2008). Meanwhile, numerical studies on BC AAE did not show systematic nor conclusive results to improve our understanding on them (Li et al, 2016;.…”

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confidence: 99%

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The Absorption Ångström Exponent of black carbon: from numerical aspects

Liu¹,

Chung²,

Yin³

2017

Preprint

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Abstract. The Absorption Ångström Exponent (AAE) is an important aerosol optical parameter used for aerosol 10 characterization and apportionment studies. The AAE of black carbon (BC) is widely accepted to be 1.0, although observational estimates give a quite wide range of 0.6~1.1. With considerable uncertainties related to observations, a numerical study is a powerful method, if not the only one, to provide a better and more accurate understanding on BC AAE.This study calculates BC AAE using realistic particle geometries based on fractal aggregate and an accurate numerical optical model (namely the Multiple-Sphere T-Matrix method). At odds with the expectations, BC AAE is not 1.0, even when 15 BC is assumed to have small sizes and a wavelength independent refractive index. With a wavelength independent refractive index, the AAE of fresh BC is approximately 1.05, and is quite insensitive to particle size distribution. BC AAE goes lower when BC particles are aged (compact structures or coated by other scattering materials). For coated BC, we prescribed the coating thickness distribution based on a published experimental study, where smaller BC cores were shown to develop thicker coating than bigger BC cores. Both Compact and Coated BC the AAE ranges, at realistic particle sizes. For both 20Compact and Coated BC, the AAE is highly sensitive to particle size distribution, ranging from approximately 0.8 to 1.0 for relatively large BC with wavelength-independent refractive index. When the refractive index is allowed to vary with wavelength, a feature with observational backing, the BC AAE shows a much wider range. We propose that the presented results herein serve as a comprehensive guide for the response of BC AAE to BC size, refractive index, and geometry.

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Section: Bc Aae 15mentioning

confidence: 99%

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confidence: 99%

The Absorption Ångström Exponent of black carbon: from numerical aspects

Liu¹,

Chung²,

Yin³

2017

Preprint

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“…Aerosol measured at or very near sources is subject to these larger errors. Examples include measurements in traffic tunnels (Ban-Weiss et al 2008) or biomass burning regions (Johnson et al 2008), laboratory and field measurements of biomass or biofuel combustion (Roden et al 2006;Lewis et al 2008), and laboratory studies of the relationship between absorption and aerosol mixing state (Schnaiter et al 2005). Figure 1 is comparable in slope and range; the dependence of C ts on size is similar regardless of refractive index.…”

Section: The Correction May Be In Error By Up To 5% For Aerosolmentioning

confidence: 99%

Truncation and Angular-Scattering Corrections for Absorbing Aerosol in the TSI 3563 Nephelometer

Bond

Covert

Müller

2009

Aerosol Science and Technology

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“…Several studies have used the absorption spectral dependence to apportion the fossil fuel and BB contributions to total absorption (Favez et al, 2010;Massabò et al, 2015;Sandradewi et al, 2008). However, the å abs values do not always reflect the combustion type and using it as a source apportionment parameter could lead to erroneous results (Garg et al, 2016;Lewis et al, 2008;Wang et al, 2016b).…”

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confidence: 99%

Black and brown carbon over central Amazonia: Long-term aerosol measurements at the ATTO site

Saturno¹,

Holanda²,

Pöhlker³

et al. 2017

Preprint

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Abstract. The Amazon rain forest is considered a very sensitive ecosystem that could be significantly affected by a changing climate. It is still one of the few places on Earth where the atmosphere in the continent approaches near-pristine conditions for some periods of the year. The Amazon Tall Tower Observatory (ATTO) has been built in central Amazonia to monitor the atmospheric and forest ecosystem conditions. The atmospheric conditions at the ATTO site oscillate between biogenic and biomass burning (BB) dominated states. By using a comprehensive ground-based aerosol measurement setup, we studied the physical and chemical properties of aerosol particles at the ATTO site. This parameterization of å abs as a function of the BC to OA mass ratio was investigated and was found applicable to tropical forest emissions but further investigation is required, especially by segregating fuel types. Additionally, important enhancements of the BC mass absorption cross-section (α abs ) were found over the measurement period. This enhancement could be linked to heavy coating of the BC aerosol particles. In the future, the BC mixing state should be systematically investigated by using different instrumental approaches.

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Strong spectral variation of biomass smoke light absorption and single scattering albedo observed with a novel dual‐wavelength photoacoustic instrument

Cited by 319 publications

References 45 publications

The Absorption Ångström Exponent of black carbon: from numerical aspects

The Absorption Ångström Exponent of black carbon: from numerical aspects

Truncation and Angular-Scattering Corrections for Absorbing Aerosol in the TSI 3563 Nephelometer

Black and brown carbon over central Amazonia: Long-term aerosol measurements at the ATTO site

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