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The role of iron and black carbon in aerosol light absorption
Y. Derimian
,
A. Karnieli
, Y. J. Kaufman
, M. O. Andreae
, T. W. Andreae
, O. Dubovik
, W. Maenhaut
, I. Koren
Department of Electrical & Computer Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
93
Scopus citations
Overview
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Dive into the research topics of 'The role of iron and black carbon in aerosol light absorption'. Together they form a unique fingerprint.
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Keyphrases
Carbon Black
100%
Aerosol Light Absorption
100%
Iron Concentration
100%
Iron-carbon
100%
Dust
66%
Mineral Dust
66%
Israel
33%
Negev Desert
33%
Light Absorption
33%
In Situ
33%
Chemical Composition
33%
Natural Processes
33%
Radiometric Measurements
33%
Aerosol
33%
Size Fraction
33%
Regional Distribution
33%
Mixing State
33%
Pollution
33%
Climate Research
33%
Biogeochemistry
33%
Dust Episodes
33%
Micronutrients
33%
Aerosol Sampling
33%
Major Components
33%
Stack Filters
33%
Optical Absorption Property
33%
Aerosol Chemical Composition
33%
Filter Unit
33%
Absorptive Capacity
33%
Aerosol Optical Properties
33%
Pollution Component
33%
Composition Measurement
33%
Sun-sky Radiometer
33%
Atmospheric Aerosol
33%
Chemical Data
33%
Simultaneous Studies
33%
Single Scattering Albedo
33%
Aerosol Simulation
33%
Particulate Mass
33%
Optical Data
33%
Carbon Equivalent
33%
Earth and Planetary Sciences
Electromagnetic Absorption
100%
Black Carbon
100%
Israel
33%
Biogeochemistry
33%
Trace Element
33%
Optical Property
33%
Atmospheric Aerosol
33%
Radiometer
33%
Albedo
33%