Pebble Accretion by Bodies on Eccentric Orbits and the Mass Ratios of Exoplanets


Conference paper


S. J. Desch, A. P. Jackson, C. Mai, J. L. Noviello
Exoplanets in Our Backyard: Solar System and Exoplanet Synergies on Planetary Formation, Evolution, and Habitability, vol. 2195, 2020 Feb, p. 3061

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APA   Click to copy
Desch, S. J., Jackson, A. P., Mai, C., & Noviello, J. L. (2020). Pebble Accretion by Bodies on Eccentric Orbits and the Mass Ratios of Exoplanets. In Exoplanets in Our Backyard: Solar System and Exoplanet Synergies on Planetary Formation, Evolution, and Habitability (Vol. 2195, p. 3061).


Chicago/Turabian   Click to copy
Desch, S. J., A. P. Jackson, C. Mai, and J. L. Noviello. “Pebble Accretion by Bodies on Eccentric Orbits and the Mass Ratios of Exoplanets.” In Exoplanets in Our Backyard: Solar System and Exoplanet Synergies on Planetary Formation, Evolution, and Habitability, 2195:3061, 2020.


MLA   Click to copy
Desch, S. J., et al. “Pebble Accretion by Bodies on Eccentric Orbits and the Mass Ratios of Exoplanets.” Exoplanets in Our Backyard: Solar System and Exoplanet Synergies on Planetary Formation, Evolution, and Habitability, vol. 2195, 2020, p. 3061.


BibTeX   Click to copy

@inproceedings{desch2020a,
  title = {Pebble Accretion by Bodies on Eccentric Orbits and the Mass Ratios of Exoplanets},
  year = {2020},
  month = feb,
  pages = {3061},
  volume = {2195},
  author = {Desch, S. J. and Jackson, A. P. and Mai, C. and Noviello, J. L.},
  booktitle = {Exoplanets in Our Backyard:  Solar System and Exoplanet Synergies on Planetary Formation, Evolution, and Habitability},
  month_numeric = {2}
}


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