Abstract
The observed features of the interstellar extinction curve in both the Galaxy and in the external galaxies LMC and SMC are explained on the basis of a model involving clumps of hollow or porous organic particles with an overall volume filling factor of 0.1. The hollow organic particles have a ready explanation in terms of the bacterial grain model. The visual and near infrared observations of extinction are fitted by a size distribution of such aggregates similar to the distribution law discovered for the larger grains in Halley's comet, but with a cutoff at low radii taken at 0.5 μm for the Galaxy and 0.3 and 0.4 μ, respectively, for SMC and LMC. Fine tuning of the theoretical extinction curve to fit observational data in the ultraviolet involves variable contributions from small condensed polymeric units of typical radius 0.012 μm and graphite particles of radii 0.02 μ. These particle species may be regarded as being derived from the primary distribution of clumps. The implication is that cometary sources could provide a major component of the grains in interstellar space.
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Hoyle, F., Wickramasinghe, N.C. Interstellar extinction by cometary organic grain clumps. Astrophys Space Sci 140, 191–203 (1988). https://doi.org/10.1007/BF00643542
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DOI: https://doi.org/10.1007/BF00643542