Geometrical structure and thermal conductivity of dust aggregates formed via ballistic cluster-cluster aggregation

Abstract

We herein report a theoretical study of the geometrical structure of porous dust aggregates formed via ballistic cluster-cluster aggregation (BCCA). We calculated the gyration radius R gyr and the graph-based geodesic radius R geo as a function of the number of constituent particles N. We found that R gyr / r0 N0.531 0.011 and R geo / r0 N0.710 0.013, where r0 is the radius of constituent particles. Furthermore, we defined two constants that characterize the geometrical structure of fractal aggregates: D f and α. The definition of D f and α are N ( R gyr / r0 )D f and R geo / r0 ( R gyr / r0 )α, respectively. Our study revealed that D f 1.88 and α 1.34 for the clusters of the BCCA. In addition, we also studied the filling factor dependence of thermal conductivity of statically compressed fractal aggregates. From this study, we reveal that the thermal conductivity of statically compressed aggregates k is given by k 2 k mat ( r c / r0 ) φ(1 + α) / (3 - D f), where k mat is the material thermal conductivity, r c is the contact radius of constituent particles, and φ is the filling factor of dust aggregates.