Natalie R. Hinkel, Ph.D.
Affiliations: | 2012 | Astrophysics | Arizona State University, Tempe, AZ, United States |
Area:
Astrophysics Physics, Astronomy and AstrophysicsGoogle:
"Natalie Hinkel"Parents
Sign in to add mentorFrank X. Timmes | grad student | 2012 | Arizona State | |
(Stellar Abundances in the Solar Neighborhood.) |
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Publications
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Clark JT, Clerté M, Hinkel NR, et al. (2021) The GALAH Survey: using galactic archaeology to refine our knowledge of TESS target stars Monthly Notices of the Royal Astronomical Society. 504: 4968-4989 |
Hinkel NR, Hartnett HE, Young PA. (2020) The Influence of Stellar Phosphorus on Our Understanding of Exoplanets and Astrobiology The Astrophysical Journal. 900 |
Lisse CM, Desch SJ, Unterborn CT, et al. (2020) A Geologically Robust Procedure for Observing Rocky Exoplanets to Ensure that Detection of Atmospheric Oxygen Is a Modern Earth-like Biosignature The Astrophysical Journal. 898: L17 |
Kane SR, Yalçınkaya S, Osborn HP, et al. (2020) Transits of Known Planets Orbiting a Naked-eye Star The Astronomical Journal. 160: 129 |
Pepper J, Kane SR, Rodriguez JE, et al. (2020) TESS Reveals HD 118203 b to be a Transiting Planet The Astronomical Journal. 159: 243 |
Hill ML, Močnik T, Kane SR, et al. (2020) Orbital Refinement and Stellar Properties for the HD 9446, HD 43691, and HD 179079 Planetary Systems The Astronomical Journal. 159: 197 |
Hinkel NR, Unterborn C, Kane SR, et al. (2019) A Recommendation Algorithm to Predict Giant Exoplanet Host Stars Using Stellar Elemental Abundances The Astrophysical Journal. 880: 49 |
Teske JK, Thorngren D, Fortney JJ, et al. (2019) Do Metal-rich Stars Make Metal-rich Planets? New Insights on Giant Planet Formation from Host Star Abundances* ** The Astronomical Journal. 158: 239 |
Hinkel NR, Unterborn CT. (2018) The Star–Planet Connection. I. Using Stellar Composition to Observationally Constrain Planetary Mineralogy for the 10 Closest Stars* The Astrophysical Journal. 853: 83 |
Unterborn CT, Desch SJ, Hinkel NR, et al. (2018) Inward migration of the TRAPPIST-1 planets as inferred from their water-rich compositions Nature Astronomy. 2: 297-302 |