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Tungsten versus Selenium as a potential source of kilonova nebular emission observed by Spitzer

Kenta HotokezakaKavli IPMU (WPI), UTIAS, The University of Tokyo , Kashiwa, Chiba 277-8583, JapanMasaomi TanakaAstronomical Institute, Tohoku University , Sendai 980-8578, JapanDaiji KatoDepartment of Advanced Energy Engineering Science, Kyushu University , Kasuga, Fukuoka 816-8580, JapanGediminas GaigalasInstitute of Theoretical Physics and Astronomy, Vilnius University , Saulėtekio Ave. 3, Vilnius, Lithuania
2022en
ABI

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ABSTRACT Infrared emission lines arising from transitions between fine structure levels of heavy elements are expected to produce kilonova nebular emission. For the kilonova in GW170817, strong emission at $4.5\, {\rm \mu m}$ at late times was detected by the Spitzer Space Telescope but no source was detected at $3.6\, {\rm \mu m}$. This peculiar spectrum indicates that strong line emitters exist around $4.5\, {\rm \mu m}$ and the absence of strong lines around $3.6\, {\rm \mu m}$. To model the spectrum we prepare a line list based on the selection rules in LS coupling from the experimentally calibrated energy levels in the NIST database. This method enables to generate the synthetic spectra with accurate line wavelengths. We find that the spectrum is sensitive to the abundance pattern whether or not the first r-process peak elements are included. In both cases, the synthetic spectra can match the observed data, leading to two possible interpretations. If the first peak elements are abundant, a Se iii line dominates the flux. If otherwise, W iii with Os iii, Rh iii, and Ce iv can be the main sources. Observing nebular spectra for the future kilonova in a wider wavelength range can provide more conclusive elemental identification.

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