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Harvard ADS: Fate and detectability of rare gas hydride ions in Novae ejecta: A case study with Nova templates

Paper abstract: HeH^+ was the first heteronuclear molecule to form in the metal-free Universe after the Big Bang. The molecule gained significant attention following its first circumstellar detection in the young and dense planetary nebula NGC 7027. We target some hydride ions associated with the noble gases (HeH^+, ArH^+, and NeH^+) to investigate their formation in a harsh environment like the novae outburst region. We use a photoionization modeling (based on the earlier published best-fitted physical parameters) of the moderately fast ONe type nova: QU Vulpeculae 1984 and CO type novae: RS Ophiuchi and V1716 Scorpii. Our steady-state modeling reveals a convincing amount of HeH^+, especially in the dense clump of RS Ophiuchi and V1716 Scorpii. The calculated upper limit of the surface brightness of HeH^+ transitions suggests that the James Webb Space Telescope (JWST) could detect some of them, particularly in sources like RS Ophiuchi and V1716 Scorpii with similar physical and chemical conditions and evolution. It is to be clearly noted that the sources studied are used as templates, not as targets for observations. The detection of these lines could be useful for determining physical conditions in similar types of systems and validating our predictions based on new electron-impact rovibrational collisional data at temperatures up to 20,000 K.