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Long Term Radio Monitoring of SN 1993J | | Kurt W. Weiler
; Christopher L. Williams
; Nino Panagia
; Christopher J. Stockdale
; Matthew T. Kelley
; Richard A. Sramek
; Schuyler D. Van Dyk
; J. M. Marcaide
; | | Date: |
7 Sep 2007 | | Abstract: | We present our observations of the radio emission from supernova (SN) 1993J,
in M 81 (NGC 3031), made with the VLA, from 90 to 0.7 cm, as well as numerous
measurements from other telescopes. The combined data set constitutes probably
the most detailed set of measurements ever established for any SN outside of
the Local Group in any wavelength range. Only SN 1987A in the LMC has been the
subject of such an intensive observational program. The radio emission evolves
regularly in both time and frequency, and the usual interpretation in terms of
shock interaction with a circumstellar medium (CSM) formed by a pre-SN stellar
wind describes the observations rather well considering the complexity of the
phenomenon. However: 1) The 85 - 110 GHz measurements at early times are not
well fitted by the parameterization, unlike the cm wavelength measurements. 2)
At mid-cm wavelengths there is some deviation from the fitted radio light
curves. 3) At a time ~3100 days after shock breakout, the decline rate of the
radio emission steepens without change in the spectral index. This decline is
best described as an exponential decay starting at day 3100 with an e-folding
time of ~1100 days. 4) The best overall fit to all of the data is a model
including both non-thermal synchrotron self-absorption (SSA) and a thermal
free-free absorbing (FFA) components at early times, evolving to a constant
spectral index, optically thin decline rate, until the break in that decline
rate. Moreover, neither a purely SSA nor a purely FFA absorbing models can
provide a fit that simultaneously reproduces the light curves, the spectral
index evolution, and the brightness temperature evolution. 5) The radio and
X-ray light curves exhibit similar behavior and suggest a sudden drop in the SN
progenitor mass-loss rate at ~8000 years prior to shock breakout. | | Source: | arXiv, 0709.1136 | | Services: | Forum | Review | PDF | Favorites | |
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