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Evolution of carbon particles from the stage of asymptotic giant branch stars to planetary nebulae: observations, experiments, and theory

  a, b
a Institute of Astronomy, Russian Academy of Sciences, ul. Pyatnitskaya 48, Moscow, 119017, Russian Federation
b Ural Federal University named after the First President of Russia B N Yeltsin, prosp. Mira 19, Ekaterinburg, 620002, Russian Federation

We review research into the evolution of carbon particles at stages from the envelopes of asymptotic giant branch stars to planetary nebulae. The evolution of carbon particles is discussed from several standpoints: observational data are summarized; the formation mechanisms and clustering of aromatic molecules are considered; conditions for the formation of carbon particles in the envelopes of stars and for their subsequent evolution in protoplanetary and planetary nebulae are described; results of experiments on creating equivalents of interstellar dust and analyzing their characteristics are presented; and, finally, possible evolutionary scenarios for carbon particles are presented. Particular attention is paid to fullerene molecules, which are important for constructing a comprehensive picture of the evolution. Their presence and nonuniform distribution suggest that, depending on the conditions, the formation of carbon particles can follow two paths: via planar or nonplanar aromatic molecules.

Fulltext pdf (1.6 MB)
Fulltext is also available at DOI: 10.3367/UFNe.2023.12.039614
Keywords: carbon particles, dust evolution, polycyclic aromatic hydrocarbons, fullerenes, interstellar medium, envelopes of asymptotic giant branch stars, planetary nebulae
PACS: 82.33.Vx, 82.50.Hp, 95.30.Wi, 97.10.Fy, 98.38.Jw (all)
DOI: 10.3367/UFNe.2023.12.039614
URL: https://ufn.ru/en/articles/2024/10/a/
2-s2.0-85211018162
Citation: Murga M S "Evolution of carbon particles from the stage of asymptotic giant branch stars to planetary nebulae: observations, experiments, and theory" Phys. Usp. 67 961–987 (2024)
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Received: 24th, October 2023, revised: 29th, November 2023, 9th, December 2023

Оригинал: Мурга М С «Эволюция углеродных частиц от стадии звёзд асимптотической ветви гигантов до планетарных туманностей: наблюдения, эксперименты, теория» УФН 194 1017–1045 (2024); DOI: 10.3367/UFNr.2023.12.039614

References (235) Similar articles (20) ↓

  1. A.E. Galashev, O.R. Rakhmanova “Mechanical and thermal stability of graphene and graphene-based materialsPhys. Usp. 57 970–989 (2014)
  2. N.N. Gor’kavyi, A.M. Fridman “The physics of planetary ringsSov. Phys. Usp. 33 (2) 95–133 (1990)
  3. G.N. Makarov “Control of the parameters and composition of molecular and cluster beams by means of IR lasersPhys. Usp. 61 617–644 (2018)
  4. G.N. Makarov “Kinetic methods for measuring the temperature of clusters and nanoparticles in molecular beamsPhys. Usp. 54 351–370 (2011)
  5. E.N. Avrorin, B.K. Vodolaga et alIntense shock waves and extreme states of matterPhys. Usp. 36 (5) 337–364 (1993)
  6. A.G. Merzhanov, É.N. Rumanov “Nonlinear effects in macroscopic kineticsSov. Phys. Usp. 30 293–316 (1987)
  7. R.I. Soloukhin “Detonation waves in gasesSov. Phys. Usp. 6 523–541 (1964)
  8. G.N. Makarov “The spectroscopy of clusters by intense pulses of VUV radiation from free electron lasersPhys. Usp. 52 461–486 (2009)
  9. Yu.A. Shchekinov, V.N. Lukash et alInterstellar and intergalactic gas in the far IR and submillimeter spectral rangesPhys. Usp. 60 961–993 (2017)
  10. Yu.P. Raizer “Propagation of discharges and maintenance of a Dense plasma by electromagnetic fieldsSov. Phys. Usp. 15 688–707 (1973)
  11. K.I. Shchelkin “Instability of combustion and detonation of gasesSov. Phys. Usp. 8 780–797 (1966)
  12. A.V. Eletskii, A.A. Knizhnik et alElectrical characteristics of carbon nanotube doped compositesPhys. Usp. 58 209–251 (2015)
  13. T.V. Perevalov, V.A. Gritsenko “Application and electronic structure of high-permittivity dielectricsPhys. Usp. 53 561–575 (2010)
  14. G.N. Makarov “Cluster temperature. Methods for its measurement and stabilizationPhys. Usp. 51 319–353 (2008)
  15. A.A. Ivanov, M.V. Alfimov, A.M. Zheltikov “Femtosecond pulses in nanophotonicsPhys. Usp. 47 687–704 (2004)
  16. A.V. Tutukov, S.V. Vereshchagin “Destruction of astronomical systems: theory and observationsPhys. Usp. 66 859–884 (2023)
  17. A.V. Tutukov, A.M. Cherepashchuk “Evolution of close binary stars: theory and observationsPhys. Usp. 63 209–244 (2020)
  18. A.L. Klavsyuk, A.M. Saletsky “Formation and properties of metallic atomic contactsPhys. Usp. 58 933–951 (2015)
  19. A.V. Eletskii “Sorption properties of carbon nanostructuresPhys. Usp. 47 1119–1154 (2004)
  20. A.M. Miterev “Theoretical aspects of the formation and evolution of charged particle tracksPhys. Usp. 45 1019–1050 (2002)

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