- Discovery of Shell-Like Radio-Structure in SN1993J,
J. M. Marcaide, A. Alberdi, E. Ros , P. Diamond, B. Schmidt, I. I. Shapiro,
L. Baath, R. J. Davis, G. de Bruyn, P. Elósegui, J. C. Guirado,
D. L. Jones, T. Krichbaum, M. I. Ratner, A. Rius, A. E. E. Rogers,
R. T. Schilizzi, C. Trigilio, A. R. Whitney & A. Witzel,
Nature, 373:44-45 (1995)
- Abstract
SUPERNOVA explosions are poorly understood, partly because of
difficulties
in modelling them theoretically(1), and partly because there have been
no
supernovae observed in our Galaxy since the invention of the telescope.
But the
recent discovery(2) of supernova SN1993J in the nearby galaxy M81 offers
an
opportunity to investigate the evolution of the remnant, and its
interaction
with the surrounding interstellar medium, at high resolution. Here we
present
radio observations of SN1993J, made using very-long-baseline
interferometry,
which show the development of a shell structure. This 8-month-old radio
shell
is the youngest ever discovered in a supernova. The data suggest that
the
supernova explosion and the expanding shell of the remnant have nearly
spherical symmetry, with small deviations where some parts of the shell
are
brighter than others. If these deviations arise because of variations in
the
density of the shell, this may reconcile earlier reports of symmetric
radio
emission(3) with the observed optical asymmetry(4,5), as the density
variations
could easily cause the latter. We infer that the radio emission is
generated at
the interface(6-9), where the surrounding gas is shocked by the ejecta.
Eduardo Ros
ros@mpifr-bonn.mpg.de