Presolar Grains, Condensation in Stellar Environments


Sossi, P., Fegley, B., Jr., 2018, Thermodynamics of element volatility and its application to planetary processes. Reviews in Mineralogy and Geochemistry vol 84, 393-459, Eds. P.L. King, B. Fegley, Jr., & T. Seward

Lodders, K. 2008, Circumstellar chemistry and dust from dead stars in meteorites, in Chemical evolution I: Chemical evolution across space and time (L. Zaikovski, J. M. Friedrich eds.) Amer. Chem. Soc. Symp. Ser. 981, ACS, Washington D.C, 61-79. preprint

K. Lodders and S. Amari 2005,Grains From Meteorites: Remnants From the EarlyTimes of the Solar System. Chem. Erde 65, 93-166 (invited review). reprint

K. Lodders and B. Fegley, Jr. 1999,Condensation Chemistry of Circumstellar Grains in Asymptotic Giant Branch Stars, (Le Bertre, T., A. Lèbre, & C. Waelkins, eds), pp. 279-289, IAU Symposium No. 191, Astronomical Society of the Pacific, San Francisci, CA. reprint

B. Fegley, Jr. 1999, Chemical and Physical Processing of Presolar Materials in the Solar Nebula and Implications for Preservation of Presolar Materials in Comets, Space Science Reviews 90, 239-252. Also reprinted in Composition and Origin of Cometary Materials, (Altwegg, K., P. Ehrenfreund, J. Geiss, & W. Huebner, eds.) Kluwer Academic Publishers, Dordrecht, Netherlands, pp. 239-252. reprint

Other papers on presolar grains:

Haenecour, P., Howe, J.Y., Zega, T.J., Amari, S., Lodders, K., Jose, J., Kaji, K., Sunaoshi, T., Muto, A. 2019, Laboratory evidence for co-condensed O- and C-rich meteoritic stardust from nova outbursts, Nature Astronomy 3, 626-630. DOI: 10.1038/s41550-019-0757-4

Haenecour, P., Howe, J.Y., Zega, T.J., Amari, S., Floss, C., Wallace, P., Lodders, K., Kaji,K., Sunaoshi, T., Muto, A. 2018, Low-Voltage Energy-Dispersive X-ray Spectroscopy and Electron Energy-Loss Spectroscopy Analysis of Presolar Graphite Spherules, Microsc. Microanal. 24 (Suppl 1), 2110-2111.

Haenecour, P., Floss, C., Jose, J., Amari, S., Lodders, K., Jadhav, M., Wang, A., Gyngard, F. 2016, Discovery of Presolar Graphite From CO Nova Ejecta, ApJ, 825, 88(9pp)…825…88H

Hoppe, P., Lodders, K. Fujiya, W. 2015, Sulfur in presolar silicon carbide grains from asymptotic giant branch stars. Meteoritics Planet. Sci. 50, 1122-1138,…50.1122H

B. F. Rauch, J. T. Link, K. Lodders, M. H. Israel, L. M. Barbier, W. R. Binns, E. R. Christian, J. R. Cummings, G. A. de Nolfo, S. Geier, R. A. Mewaldt, J. W. Mitchell, S. M. Schindler, L. M. Scott, E. C. Stone, R. E. Streitmatter, C. J. Waddington, M. E. Wiedenbeck, 2009, Cosmic-ray origin in OB associations and preferential acceleration of refractory elements. Evidence from abundances of elements 26Fe through 34S. ApJ, 697, 2083-2088. reprint

Bautista, M. A., Meléndez, M., Hartman, H., Gull, T. R., Lodders, K. 2011, The abundance of the iron-peak and the dust composition in eta Carinae: manganese. Mon. Not. Royal Astron. Soc., 410(4), 2643-2652. reprint

M. A. Bautista, C. Ballance, T. R. Gull, H. Hartman, K. Lodders, M. Martinez, M. Melendez, 2009, Scandium and chromium in the strontium filament in the homunculus of eta Carinae. Mon. Not. R. Astron. Soc. 393, 1503-1512. reprint

S. Amari, K. Lodders 2007, Presolar grains from supernovae and novae. In Highlights of Astronomy, Vol. 14, as presented at the IAU XXVI General Assembly, 2006, Cambridge University Press, pp.349-352. reprint

K. Lodders 2006, They came from the deep in the supernova: The origin of TiC and metal subgrains in presolar graphite grains. ApJ647, L37-L40. reprint

M.A. Bautista, H. Hartman, T.R. Gull, N. Smith, K. Lodders 2006, [Ti II] and [Ni II] emission from the strontium filament of h Carinae. Mon. Not. R. Astron. Soc.370, 1991-2003. reprint

J. José, M. Hernanz, S. Amari, K. Lodders, and E. Zinner 2004, The imprint of nucleosynthesis in presolar grains.Astrophys. J.612, 414-428. reprint

S. Amari, L. R. Nittler, E. Zinner, K. Lodders, and R. S. Lewis 2001, Presolar SiC Grains of Type A and B: Their Isotopic Compositions and Stellar Origins. Astrophys. J. 559, 463-483. reprint

P. Hoppe, K. Lodders, R. Strebel, S. Amari, and R. S. Lewis 2001, Boron in Presolar Silicon Carbide Grains from Supernovae, Astrophys. J.551, 478-485. reprint

K. Lodders and B. Fegley, Jr. 1998, Presolar Silicon Carbide Grains and Their Parent Stars. Meteoritics & Planet. Sci.33, 871-880. reprint

K. Lodders and B. Fegley, Jr. 1997, Complementary Trace Element Abundances in Meteoritic SiC Grains and Carbon Star Atmospheres. Astrophys. J.484, L71-L74. reprint

K. Lodders and B. Fegley, Jr. 1997, Condensation Chemistry of Carbon Stars. In The Astrophysical Implications of the Laboratory Study of Presolar Materials, AIP Conf. Proc., Vol. 402, (T. Bernatowicz, E. Zinner, eds.), Amer. Inst. of Physics, pp. 391-423. reprint

T. J. Bernatowicz, R. Cowsik, P. C. Gibbons, K. Lodders, B. Fegley, Jr., S. Amari, and R. S. Lewis 1996, Constraints on Stellar Grain Formation from Presolar Graphite in the Murchison Meteorite. Astrophys. J.472, 760-782. reprintfigures

K. Lodders and B. Fegley, Jr. 1995, The Origin of Circumstellar SiC Grains Found in Meteorites. Meteoritics30, 661-678. reprint

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