Cold Dust in Kepler's Supernova Remnant

Abstract

The timescales to replenish dust from the cool, dense winds of Asymptotic Giant Branch stars are believed to be greater than the timescales for dust destruction. In high redshift galaxies, this problem is further compounded as the stars take longer than the age of the Universe to evolve into the dust production stages. To explain these discrepancies, dust formation in supernovae (SNe) is required to be an important process but until very recently dust in supernova remnants has only been detected in very small quantities. We present the first submillimeter observations of cold dust in Kepler's supernova remnant (SNR) using SCUBA. A two component dust temperature model is required to fit the Spectral Energy Distribution (SED) with Twarm 102K and Tcold 17K. The total mass of dust implied for Kepler is 1M - 1000 times greater than previous estimates. Thus SNe, or their progenitors may be important dust formation sites.

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