A 3D map of the Local Bubble from λ5780 and λ5797 DIBs reveals lower 5797/5780 ratios inside, indicating the λ5780 carrier withstands hot-gas destruction better than the λ5797 carrier.
The formation of cosmic fullerenes from arophatic clusters
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abstract
Fullerenes have recently been identified in space and they may play a significant role in the gas and dust budget of various astrophysical objects including planetary nebulae (PNe), reflection nebulae (RNe) and H II regions. The tenuous nature of the gas in these environments precludes the formation of fullerene materials following known vaporization or combustion synthesis routes even on astronomical timescales. We have studied the processing of hydrogenated amorphous carbon (a-C:H or HAC) nano-particles and their specific derivative structures, which we name "arophatics", in the circumstellar environments of young, carbon-rich PNe. We find that UV-irradiation of such particles can result in the formation of fullerenes, consistent with the known physical conditions in PNe and with available timescales.
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astro-ph.GA 1years
2019 1verdicts
UNVERDICTED 1representative citing papers
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A three-dimensional map of the hot Local Bubble using diffuse interstellar bands
A 3D map of the Local Bubble from λ5780 and λ5797 DIBs reveals lower 5797/5780 ratios inside, indicating the λ5780 carrier withstands hot-gas destruction better than the λ5797 carrier.