Black carbon (BC) plays an important role in the climate system because of its strong warming effect, yet the magnitude of this effect is highly uncertain owing to the complex mixing state of aerosols. Here we build a unified theoretical framework to describe BC's mixing states, linking dynamic processes to BC coating thickness distribution, and show its self-similarity for sites in diverse environments. The size distribution of BC-containing particles is found to follow a universal law and is independent of BC core size. A new mixing state module is established based on this finding and successfully applied in global and regional models, which increases the accuracy of aerosol climate effect estimations. Our theoretical framework links obs...
In order to understand the response of the Earth-atmosphere system to anthropogenic aerosol forcing,...
Black carbon (BC) is important for climate forcing, and its effects on the Earth\u27s radiative bala...
Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative bal...
Black carbon (BC) plays an important role in the climate system due to its strongwarming effect, yet...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
The climatic impacts of black carbon (BC) aerosol, an important absorber of solar radiation in the ...
Recent observational studies suggest that nucleation-scavenging is the principal path to removing bl...
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...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
Black carbon-containing aerosol particles (called BC particles hereafter) are a major particle type...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
Recently, attention has been drawn towards black carbon aerosols as a likely short-term climate warm...
Black carbon-containing aerosol particles play an important role in the direct and indirect radiativ...
Black carbon (BC) is the dominant aerosol absorber of solar radiation in the atmosphere and is an im...
In order to understand the response of the Earth-atmosphere system to anthropogenic aerosol forcing,...
Black carbon (BC) is important for climate forcing, and its effects on the Earth\u27s radiative bala...
Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative bal...
Black carbon (BC) plays an important role in the climate system due to its strongwarming effect, yet...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
The climatic impacts of black carbon (BC) aerosol, an important absorber of solar radiation in the ...
Recent observational studies suggest that nucleation-scavenging is the principal path to removing bl...
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...
An accurate simulation of the absorption properties is key for assessing the radiative effects of ae...
Black carbon-containing aerosol particles (called BC particles hereafter) are a major particle type...
Black carbon (BC) absorbs solar radiation, leading to a strong but uncertain warming effect on clima...
Recently, attention has been drawn towards black carbon aerosols as a likely short-term climate warm...
Black carbon-containing aerosol particles play an important role in the direct and indirect radiativ...
Black carbon (BC) is the dominant aerosol absorber of solar radiation in the atmosphere and is an im...
In order to understand the response of the Earth-atmosphere system to anthropogenic aerosol forcing,...
Black carbon (BC) is important for climate forcing, and its effects on the Earth\u27s radiative bala...
Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative bal...