gs-tec: the Gaia spectrophotometry transient events classifier

We present an algorithm for classifying the nearby transient objects detected by the Gaia satellite. The algorithm will use the low-resolution spectra from the blue and red spectrophotometers on board of the satellite. Taking a Bayesian approach we model the spectra using the newly constructed reference spectral library and literature-driven priors. We find that for magnitudes brighter than 19 in Gaia G magnitude, around 75% of the transients will be robustly classified. The efficiency of the algorithm for SNe type I is higher than 80% for magnitudes G 618, dropping to approximately 60% at magnitude G=19. For SNe type II, the efficiency varies from 75 to 60% for G 618, falling to 50% at G=19. The purity of our classifier is around 95% for SNe type I for all magnitudes. For SNe type II it is over 90% for objects withG 619. GS-TEC also estimates the redshifts with errors of z 6 0.01 and epochs with uncertainties t ’ 13 and 32 days for type SNe I and SNe II respectively. GS-TEC has been designed to be used on partially calibrated Gaia data. However, the concept could be extended to other kinds of low resolution spectra classification for ongoing surveys.

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