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Modeling of aerosol properties related to direct climate forcing
Sotiria Koloutsou-Vakakis
, Mark J. Rood
, Athanasios Nenes
, Christodoulos Pilinis
Research output
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Article
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peer-review
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Dive into the research topics of 'Modeling of aerosol properties related to direct climate forcing'. Together they form a unique fingerprint.
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Keyphrases
Climate Forcing
100%
Aerosol Properties
100%
Particle Size Distribution
66%
Backscattering Coefficient
33%
Particle Size
33%
Predictive Ability
33%
Humidity
33%
Illinois
33%
Backscatter
33%
Modeling Approach
33%
Laboratory Measurements
33%
Equilibrium State
33%
Temporal Variation
33%
Step Processes
33%
Particle Chemical Composition
33%
Particle Composition
33%
Particle Properties
33%
Total Light Scattering
33%
Local Experimentation
33%
Aerosol Climate Forcing
33%
Field Sampling
33%
Aerosol Particles
33%
Mixing Rules
33%
Sampling Station
33%
Mass Particles
33%
Hygroscopic Particles
33%
Low RH
33%
Hygroscopicity
33%
Hygroscopic Growth Factor
33%
Thermodynamic Equilibrium Model
33%
High RH
33%
Nephelometry
33%
Aerosol Parameter
33%
Engineering
Particle Size Analysis
100%
Relative Humidity
50%
Equilibrium State
50%
Temporal Variation
50%
Step Process
50%
Ground Level
50%
Major Factor
50%
Predictive Ability
50%
Thermodynamic Equilibrium
50%
Mixing Rule
50%
Equilibrium Model
50%
Earth and Planetary Sciences
Climate Forcing
100%
Aerosol Property
100%
Particle Size Distribution
66%
Illinois
33%
Backscattering
33%
Limiting Factor
33%
Light Scattering
33%
Relative Humidity
33%
Temporal Variation
33%
Thermodynamic Equilibrium
33%
Hygroscopicity
33%