Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms

M. Collaud Coen; E. Weingartner; A. Apituley; D. Ceburnis; R. Fierz-Schmidhauser; H. Flentje; J. S. Henzing; S. G. Jennings; M. Moerman; A. Petzold; O. Schmid; U. Baltensperger

doi:10.5194/amt-3-457-2010

Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms

M. Collaud Coen
, E. Weingartner
, A. Apituley
, D. Ceburnis
, R. Fierz-Schmidhauser
, H. Flentje
, J. S. Henzing
, S. G. Jennings
, M. Moerman
, A. Petzold
, O. Schmid
, U. Baltensperger

Physics

Federal Office of Meteorology and Climatology MeteoSwiss
Paul Scherrer Institut
Rijksinstituut voor Volksgezondheid en Milieu
German Weather Service
The TNO Institute of Applied Physics
Institute of Planetary Research
German Research Center for Environmental Health
Missouri University of Science and Technology
MPIC

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

415 Citations (Scopus)

Abstract

The aerosol light absorption coefficient is an essential parameter involved in atmospheric radiation budget calculations. The Aethalometer (AE) has the great advantage of measuring the aerosol light absorption coefficient at several wavelengths, but the derived absorption coefficients are systematically too high when compared to reference methods. Up to now, four different correction algorithms of the AE absorption coefficients have been proposed by several authors. A new correction scheme based on these previously published methods has been developed, which accounts for the optical properties of the aerosol particles embedded in the filter. All the corrections have been tested on six datasets representing different aerosol types and loadings and include multi-wavelength AE and white-light AE. All the corrections have also been evaluated through comparison with a Multi-Angle Absorption Photometer (MAAP) for four datasets lasting between 6 months and five years. The modification of the wavelength dependence by the different corrections is analyzed in detail. The performances and the limits of all AE corrections are determined and recommendations are given.

Original language	English
Pages (from-to)	457-474
Number of pages	18
Journal	Atmospheric Measurement Techniques
Volume	3
Issue number	2
DOIs	https://doi.org/10.5194/amt-3-457-2010
Publication status	Published - 2010

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Collaud Coen, M., Weingartner, E., Apituley, A., Ceburnis, D., Fierz-Schmidhauser, R., Flentje, H., Henzing, J. S., Jennings, S. G., Moerman, M., Petzold, A., Schmid, O., & Baltensperger, U. (2010). Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms. Atmospheric Measurement Techniques, 3(2), 457-474. https://doi.org/10.5194/amt-3-457-2010

@article{d07a23235ae14f28abf0acc0016eb67e,

title = "Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms",

abstract = "The aerosol light absorption coefficient is an essential parameter involved in atmospheric radiation budget calculations. The Aethalometer (AE) has the great advantage of measuring the aerosol light absorption coefficient at several wavelengths, but the derived absorption coefficients are systematically too high when compared to reference methods. Up to now, four different correction algorithms of the AE absorption coefficients have been proposed by several authors. A new correction scheme based on these previously published methods has been developed, which accounts for the optical properties of the aerosol particles embedded in the filter. All the corrections have been tested on six datasets representing different aerosol types and loadings and include multi-wavelength AE and white-light AE. All the corrections have also been evaluated through comparison with a Multi-Angle Absorption Photometer (MAAP) for four datasets lasting between 6 months and five years. The modification of the wavelength dependence by the different corrections is analyzed in detail. The performances and the limits of all AE corrections are determined and recommendations are given.",

author = "\{Collaud Coen\}, M. and E. Weingartner and A. Apituley and D. Ceburnis and R. Fierz-Schmidhauser and H. Flentje and Henzing, \{J. S.\} and Jennings, \{S. G.\} and M. Moerman and A. Petzold and O. Schmid and U. Baltensperger",

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Collaud Coen, M, Weingartner, E, Apituley, A, Ceburnis, D, Fierz-Schmidhauser, R, Flentje, H, Henzing, JS, Jennings, SG, Moerman, M, Petzold, A, Schmid, O & Baltensperger, U 2010, 'Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms', Atmospheric Measurement Techniques, vol. 3, no. 2, pp. 457-474. https://doi.org/10.5194/amt-3-457-2010

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T1 - Minimizing light absorption measurement artifacts of the Aethalometer

T2 - Evaluation of five correction algorithms

AU - Collaud Coen, M.

AU - Weingartner, E.

AU - Apituley, A.

AU - Ceburnis, D.

AU - Fierz-Schmidhauser, R.

AU - Flentje, H.

AU - Henzing, J. S.

AU - Jennings, S. G.

AU - Moerman, M.

AU - Petzold, A.

AU - Schmid, O.

AU - Baltensperger, U.

PY - 2010

Y1 - 2010

N2 - The aerosol light absorption coefficient is an essential parameter involved in atmospheric radiation budget calculations. The Aethalometer (AE) has the great advantage of measuring the aerosol light absorption coefficient at several wavelengths, but the derived absorption coefficients are systematically too high when compared to reference methods. Up to now, four different correction algorithms of the AE absorption coefficients have been proposed by several authors. A new correction scheme based on these previously published methods has been developed, which accounts for the optical properties of the aerosol particles embedded in the filter. All the corrections have been tested on six datasets representing different aerosol types and loadings and include multi-wavelength AE and white-light AE. All the corrections have also been evaluated through comparison with a Multi-Angle Absorption Photometer (MAAP) for four datasets lasting between 6 months and five years. The modification of the wavelength dependence by the different corrections is analyzed in detail. The performances and the limits of all AE corrections are determined and recommendations are given.

AB - The aerosol light absorption coefficient is an essential parameter involved in atmospheric radiation budget calculations. The Aethalometer (AE) has the great advantage of measuring the aerosol light absorption coefficient at several wavelengths, but the derived absorption coefficients are systematically too high when compared to reference methods. Up to now, four different correction algorithms of the AE absorption coefficients have been proposed by several authors. A new correction scheme based on these previously published methods has been developed, which accounts for the optical properties of the aerosol particles embedded in the filter. All the corrections have been tested on six datasets representing different aerosol types and loadings and include multi-wavelength AE and white-light AE. All the corrections have also been evaluated through comparison with a Multi-Angle Absorption Photometer (MAAP) for four datasets lasting between 6 months and five years. The modification of the wavelength dependence by the different corrections is analyzed in detail. The performances and the limits of all AE corrections are determined and recommendations are given.

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DO - 10.5194/amt-3-457-2010

M3 - Article

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EP - 474

JO - Atmospheric Measurement Techniques

JF - Atmospheric Measurement Techniques

IS - 2

ER -

Minimizing light absorption measurement artifacts of the Aethalometer: Evaluation of five correction algorithms

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