1. Spalding, C. (2019). Stellar winds as a mechanism to tilt the spin axes of Sun-like stars, in review.
  2. Spalding, C. & Fischer, W., W., (2019). A shorter Archean day-length biases interpretations of the faint young Sun paradox, in review.
  3. Spalding, C. (2018). The primordial Solar wind as a sculptor of terrestrial planet formation, The Astrophysical Journal Letters, 869L17(link) (Press release)
  4. Spalding, C., Fischer, W., W. & Laughlin, G., (2018). An orbital window into the ancient Sun’s mass, The Astrophysical Journal Letters, 896, L19. (link) (Press release)
  5. Spalding, C., Marx, N. W., & Batygin, K., (2018). The resilience of Kepler systems to stellar obliquity, The Astronomical Journal, 155, 4. (link)
  6. Spalding, C., Doering, C. & Flierl, G., (2017). Resonant activation of population extinctions, Phys. Rev. E, 96, 042411. (link)
  7. Spalding, C. & Batygin, K., (2017). A secular resonant origin for the loneliness of hot Jupiters, The Astronomical Journal, 154, 3. (link)
  8. Spalding, C., Finnegan, S. & Fischer, W., W., (2017). Energetic costs of calcification under ocean acidification, Global Biogeochemical Cycles, 31, 866. (link)
  9. Spalding, C. & Batygin, K., (2016), Spin-orbit misalignment as a driver of the Kepler dichotomy, The Astrophysical Journal, 830, 5. (link) (NewScientist)
  10. Spalding, C., Batygin, K. & Adams, F. C. (2016). Resonant removal of exomoons during planetary migration. The Astrophysical Journal, 817(1), 18. (link) (NewScientist)
  11. Spalding, C. & Batygin, K. (2015). Magnetic origins of the stellar mass-obliquity correlation in planetary systems. The Astrophysical Journal, 811(2), 82. (link) (NewScientist)
  12. Spalding, C., Batygin, K. & Adams, F. C. (2014). Alignment of protostars and circumstellar disks during the embedded phase. The Astrophysical Journal Letters, 797(2), L29. (link)
  13. Spalding, C. & Batygin, K. (2014). Early excitation of spin-orbit misalignments in close-in planetary systems. The Astrophysical Journal, 790(1), 42. (link)