Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-09-20
Astronomy and Astrophysics
Astrophysics
9 pages, 4 figures, to appear in JGR
Scientific paper
Identification by the Ulysses spacecraft of interstellar grains inside the planetary system provides a new window for the study of diffuse interstellar matter. Dust particles observed by Ulysses and confirmed by Galileo are more massive ($\geq 10^{-13} {\rm g}$) than the 'classical' interstellar grains. Even bigger grains ($\approx 10^{-7} {\rm g}$) were observed in form of interstellar meteors. We analyze the consequences of the plentiful existence of massive grains in the diffuse interstellar medium. Astronomically observed 'classical' interstellar grains can be described by a size distribution ranging from about 5 to 250 nm in radius (about $10^{-18}$ to $10^{-13} {\rm g}$). Lifetimes of these particles, due to mutual collisions in interstellar space, can be as short as $10^{5} f$ years, where f = 10 to 1000, is the fraction of total lifetime to the time when grains are exposed to supernova shocks. Shattering is a source of the smallest of these grains, but grains more massive than about $10^{-16} {\rm g}$ of the classical interstellar grain population are rapidly destroyed. When applying the same shattering mechanism to the more massive grains found recently, we suggest that collisions of particles bigger than about $10^{-15} {\rm g}$ provide a source for smaller grains. Because massive grains couple to the interstellar gas only over large (100 to 1000 pc) length scales, the cosmic abundance ratio of gas-to-dust needs only to be preserved averaged over corresponding volumes of space.
Grün Eberhard
Landgraf Markus
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