http://arxiv.org/abs/1906.03270
The first interstellar object, `Oumuamua, was discovered in the Solar System by Pan-STARRS in 2017, allowing for a calibration of the impact rate of interstellar meteors of its size $\sim 100\;$m. The discovery of CNEOS 2014-01-08 allowed for a calibration of the impact rate of interstellar meteors of its size $\sim 1\;$m. Analysis of interstellar dust grains have allowed for calibrations of the impact rate of smaller interstellar meteors down to the size $\sim 10^{-8}\;$m. We analyze the size distribution of interstellar meteors, finding that for smooth power-law fits of the form $N(r)\propto r^{-q}$, the possible values of $q$ are in the range $3.41 \pm 0.17$. We then consider the possibility of analyzing interstellar meteors to learn about their parent planetary systems. We propose a strategy for determining the orbits and chemical compositions of interstellar meteors, using a network of $\sim 600$ all-sky camera systems to track and conduct remote spectroscopy on meteors larger than $\sim 5$cm once every few years. It should also be possible to retrieve meteorites from the impact sites, providing the first samples of materials from other planetary systems.
A. Siraj and A. Loeb
Tue, 11 Jun 19
41/60
Comments: 5 pages, 2 figures, submitted to ApJL
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