Tellurium emission line in kilonova AT 2017gfo

Abstract

The late-time spectra of the kilonova AT 2017gfo associated with GW170817 exhibit a strong emission line feature at 2.1\, μ m. The line structure develops with time and there is no apparent blue-shifted absorption feature in the spectra, suggesting that this emission line feature is produced by electron collision excitation. We attribute the emission line to a fine structure line of Tellurium (Te) III, which is one of the most abundant elements in the second r-process peak. By using a synthetic spectral modeling including fine structure emission lines with the solar r-process abundance pattern beyond the first r-process peak, i.e., atomic mass numbers A 88, we demonstrate that [Te III] 2.10\, μ m is indeed expected to be the strongest emission line in the near infrared region. We estimate that the required mass of Te III is 10-3M, corresponding to the merger ejecta of 0.05M, which is in agreement with the mass estimated from the kilonova light curve.