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From:Atmospheric Chemistry and Physics (Vol. 21, Issue 23) Peer-ReviewedLarge uncertainties remain when estimating the warming effects of ambient black carbon (BC) aerosols on climate. One of the key challenges in modeling the radiative effects is predicting the BC light absorption...
From:Atmospheric Chemistry and Physics (Vol. 19, Issue 14) Peer-Reviewed
During the period 2012-2015, photolysis frequencies were measured at the Peking University site (PKUERS), a site representative of Beijing. We present a study of the effects of aerosols on two key photolysis...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 13) Peer-ReviewedNew particle formation (NPF) is thought to contribute half of the global cloud condensation nuclei. A better understanding of the NPF at different altitudes can help assess the impact of NPF on cloud formation and...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 11) Peer-ReviewedDuring the pre-monsoon season, biomass burning (BB) activities are intensive in southern Asia. Facilitated by westerly circulation, those BB plumes can be transported to the Tibetan Plateau (TP). Black carbon (BC), the...
From:Atmospheric Chemistry and Physics (Vol. 19, Issue 20) Peer-Reviewed
The refractive index of ambient aerosols, which directly determines the aerosol optical properties, is widely used in atmospheric models and remote sensing. Traditionally, the real part of the refractive index (RRI)...
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