Parent body histories recorded in Rumuruti chondrite sulfides: Implications for the onset of oxidized, sulfur-rich core formation. Crossley, S.D., Ash, R.D., Sunshine, J.M., Corrigan, C.M. and McCoy, T.J. (2023), Meteoritics and Planetary Science, 58: 383-404.
Sulfide-dominated partial melting pathways in brachinites. S.D. Crossley, Ash R. D., Sunshine J. M., Corrigan C. M., McCoy T. J., Mittlefehldt D.W., and Puchtel I.S. (2020) Meteoritics and Planetary Science, 55 (9), 2021-2043.
Experimental insights into Stannern-group eucrite petrogenesis. S. D. Crossley, N. G. Lunning, R. G. Mayne, T. J. McCoy, S. Yang, M. Humayun, R. D. Ash, J. M. Sunshine, R. C. Greenwood, and I. A. Franchi, Meteoritics and Planetary Science, 53 (10), 2122-2137.
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NWA 5790: a surprising sample from the upper part of the Nakhlite pile. J. B. Balta, M. E. Sanborn, R. G. Mayne, M. Wadhwa, H. Y. McSween, and S. D. Crossley. (2016) Meteoritics and Planetary Science, 52 (1), 36-59.
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In Preparation:
Oxidized asteroids formed sulfide cores through percolative melt migration. S.D. Crossley, J.I Simon, K. Righter, J.B. Setera, W.M. Buckley, S. Eckley, E. O'Neal.
Multiphoton excitation fluorescence for use in nonlinear optical mineralogy. C. Donner, L. Nguyen, C. Donner, A. Nguyen, K. Kieu, S.D. Crossley.
The onset of core formation in the most oxidized asteroids. D. Burgin, S.D. Crossley, C. Goodrich.
Distribution of oxidation environments among A-type main-belt asteroids. S.D. Crossley, Sunshine J. M., R.D. Ash, Corrigan C.M., McCoy T. J., Mittlefehldt D.W.
Remote interpretation of oxidation state in olivine-rich meteorites. S.D. Crossley, Sunshine J. M., R.D. Ash, Corrigan C.M., McCoy T. J., Mittlefehldt D.W.