In this paper, the mixing state of light absorbing carbonaceous (LAC) was investigated with a two-parameter aerosol optical model and in situ aerosol measurements at a regional site in the North China Plain (NCP).A closure study between the hemispheric backscattering fraction (HBF) measured by an integrating nephelometer and that calculated with a modified Mie model Seasonal was conducted.A new method was proposed to retrieve the ratio of the externally mixed LAC mass to the total mass of LAC (<i>r</i><sub>ext-LAC</sub>) based on the assumption that the ambient aerosol particles were externally mixed and consisted of a pure LAC material and a core-shell morphology in which the core is LAC and the shell is a less absorbing material.A Monte Carlo simulation was applied to estimate the overall influences of input parameters of the algorithm to the retrieved <i>r</i><sub>ext-LAC</sub>.The diurnal variation of <i>r</i><sub>ext-LAC</sub> was analyzed and the PartMC-MOSAIC model was used to simulate the variation of the aerosol mixing state.
Results show that, for internally mixed particles, the assumption of core-shell mixture is more appropriate than that of homogenous mixture which has been widely used in aerosol optical calculations.A significant diurnal pattern of the retrieved <i>r</i><sub>ext-LAC</sub> was found, with high values during the daytime and low values at night.The consistency between the retrieved <i>r</i><sub>ext-LAC</sub> and the model results indicates that the Shoes - Womens diurnal variation of LAC mixing state is mainly caused by the diurnal evolution of the mixing layer.