Radio Supernovae as Distance Indicators

Abstract

Long-term monitoring of the radio emission from supernovae with the Very Large Array (VLA) shows that the radio ``light curves'' evolve in a systematic fashion with a distinct peak flux density (and thus, in combination with a distance, a peak spectral luminosity) at each frequency and a well-defined time from explosion to that peak. Studying these two quantities at 6 cm wavelength, peak spectral luminosity (L6 cm peak) and time after explosion date (t0) to reach that peak (t6 cm peak - t0), we find that they appear related. In particular, based on two objects, Type Ib supernovae may be approximate radio ``standard candles'' with a 6 cm peak luminosity L6 cm peak ≈ 19.9 X 1026 erg s-1 Hz-1; also based on two objects, Type Ic supernovae may be approximate radio ``standard candles'' with a 6 cm peak luminosity L6 cm peak ≈ 6.5 X 1026 erg s-1 Hz-1; and, based on twelve objects, Type II supernovae appear to obey a relation L6 cm peak 5.5 X 1023 (t6 cm peak - t0)1.4 erg s-1 Hz-1, with time measured in days. If these relations are supported by further observations, they provide a means for determining distances to supernovae, and thus to their parent galaxies, from purely radio continuum observations.

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