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Evolution of fullerenes in circumstellar envelopes by carbon condensation: insights from reactive molecular dynamics simulations

Zhisen Meng, Zhao Wang

2023Monthly Notices of the Royal Astronomical Society9 citationsDOIOpen Access PDF

Abstract

ABSTRACT Fullerenes, including C60 and C70, have been detected in various astronomical environments. Understanding how their structures evolve over time is essential for gaining insights into their life cycle and making further observations. To address this, we conducted reactive molecular dynamics simulations to investigate the evolution of fullerenes in the circumstellar envelopes surrounding carbon-rich asymptotic giant branch stars. Our simulations employed a bottom-up chemistry scheme, wherein fullerenes grow by absorbing and condensing small carbon-based molecules. The results revealed the formation of different structures through heterogeneous reactions based on hydrogen concentration, leading to the emergence of onion-like nanostructures or single-layer fullerenes. To examine the impact of these structural changes on the infrared emission characteristics of fullerenes, we performed quantum chemical calculations. The results indicate that as fullerenes grow larger, additional emission features are introduced in the infrared spectrum. Moreover, two-layered fullerenes show noticeable blueshift or weakening effects on the bands associated with out-of-plane vibration modes.

Topics & Concepts

FullereneCarbon fibersChemical physicsPhysicsInfraredAsymptotic giant branchMolecular dynamicsCondensationMoleculeAstrophysicsStarsMaterials scienceAstronomyComposite materialComposite numberQuantum mechanicsThermodynamicsFullerene Chemistry and ApplicationsAstrophysics and Star Formation StudiesBoron and Carbon Nanomaterials Research
Evolution of fullerenes in circumstellar envelopes by carbon condensation: insights from reactive molecular dynamics simulations | Litcius