Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on climate. A key challenge in modeling and quantifying BC’s radiative effect on climate is predicting enhancements in light absorption that result from internal mixing between BC and other aerosol components. Modeling and laboratory studies show that BC, when mixed with other aerosol components, absorbs more strongly than pure, uncoated BC; however, some ambient observations suggest more variable and weaker absorption enhancement. We show that the lower-than-expected enhancements in ambient measurements result from a combination of two factors. First, the often used spherical, concentric core-shell approximation generally overestimates the absorptio...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
The climatic impacts of black carbon (BC) aerosol, an important absorber of solar radiation in the a...
Thesis: Ph. D. in Environmental Chemistry, Massachusetts Institute of Technology, Department of Civi...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
Black carbon (BC) and light-absorbing organic carbon (brown carbon, BrC) play key roles in warming t...
Atmospheric black carbon makes an important but poorly quantified contribution to the warming of the...
Atmospheric black carbon (BC) warms Earth's climate, and its reduction has been targeted for near-te...
Atmospheric black carbon (BC) exerts a strong, but uncertain, warming effect on the climate. BC that...
Properties of atmospheric black carbon (BC) particles were characterized during a field experiment a...
Black carbon (BC) and light-absorbing organic carbon (brown carbon, BrC) play key roles in warming t...
International audiencePeng et al. (1) conclude that a fast increase in the mass absorption cross-sec...
International audienceAtmospheric aging promotes internal mixing of black carbon (BC), leading to an...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
In order to understand the response of the Earth-atmosphere system to anthropogenic aerosol forcing,...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
The climatic impacts of black carbon (BC) aerosol, an important absorber of solar radiation in the a...
Thesis: Ph. D. in Environmental Chemistry, Massachusetts Institute of Technology, Department of Civi...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
Black carbon (BC) and light-absorbing organic carbon (brown carbon, BrC) play key roles in warming t...
Atmospheric black carbon makes an important but poorly quantified contribution to the warming of the...
Atmospheric black carbon (BC) warms Earth's climate, and its reduction has been targeted for near-te...
Atmospheric black carbon (BC) exerts a strong, but uncertain, warming effect on the climate. BC that...
Properties of atmospheric black carbon (BC) particles were characterized during a field experiment a...
Black carbon (BC) and light-absorbing organic carbon (brown carbon, BrC) play key roles in warming t...
International audiencePeng et al. (1) conclude that a fast increase in the mass absorption cross-sec...
International audienceAtmospheric aging promotes internal mixing of black carbon (BC), leading to an...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
In order to understand the response of the Earth-atmosphere system to anthropogenic aerosol forcing,...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
The climatic impacts of black carbon (BC) aerosol, an important absorber of solar radiation in the a...
Thesis: Ph. D. in Environmental Chemistry, Massachusetts Institute of Technology, Department of Civi...