Dust in the small Magellanic cloud. 1: Interstellar polarization and extinction data

Details Dust in the small Magellanic cloud. 1: Interstellar polarization and extinction data Dust in the small Magellanic cloud. 1: Interstellar polarization and extinction data

Jan 1996

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996spub.rept.....m&link_type=abstract

Technical Report, Sao Paulo Univ. Brazil Inst. Astronomico e Geofisico.

Astronomy and Astrophysics

Astronomy

Cosmic Dust, Magellanic Clouds, Linear Polarization, Interstellar Matter, A Stars, Color, Far Ultraviolet Radiation, Interstellar Extinction, Iue, Spectrophotometry

Scientific paper

The typical extinction curve for the Small Magellanic Cloud (SMC), in contrast to that for the Galaxy, has no bump at 2175 A and has a steeper rise into the far ultraviolet. For the Galaxy the interpretation of the extinction and, therefore, the dust content of the interstellar medium has been greatly assisted by measurements of the wavelength dependence of the polarization. For the SMC no such measurements existed. Therefore, to further elucidate the dust properties in the SMC we have for the first time measured linear polarization with five colors in the optical region of the spectrum for a sample of reddened stars. For two of these stars, for which there were no existing UV spectrophotometric measurements, but for which we measured a relatively large polarization, we have also obtained data from the International Ultraviolet Explorer (IUE) in order to study the extinction. We also attempt to correlate the SMC extinction and polarization data. The main results are: the wavelength of maximum polarization, lambdamax, in the SMC is typically smaller than that in the Galaxy; however, AZC 456, which shows the UV extinction bump, has a lambdamax typical of that in the Galaxy, but its polarization curve is narrower and its bump is shifted to shorter wavelengths as compared to the Galaxy; and from an analysis of both the extinction and polarization data it appears that the SMC has typically smaller grains than those in the Galaxy. The absence of the extinction bump in the SMC has generally been thought to imply a lower carbon abundance in the SMC compared to the Galaxy. We interpret our results to mean that te size distribution of the interstellar grains, and not only the carbon abundance, is different in the SMC as compared to the Galaxy. In Paper 2 we present dust model fits to these observations.

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