Ellen C. Creecy
University of Houston
7 Papers
4 Citations
Ellen C. Creecy is an academic researcher from University of Houston. The author has contributed to research in topics: Titan (rocket family) & Radiant energy. The author has an hindex of 1, co-authored 4 publications.
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Papers
Seasonal Variations of Titan's Brightness
TL;DR: In this article, the authors examined the seasonal variations of Titan's emitted power and found that the global average emitted power decreased by 6.8 ± 0.4% during the Cassini period (2004-2017).
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Mars’ emitted energy and seasonal energy imbalance
Ellen C. Creecy,Li‐Ming Li,Xun Jiang,Michael D. Smith,David M. Kass,Armin Kleinböhl,German Martinez +6 more
TL;DR: In this article , the authors provided a global picture of Mars' emitted power, and estimated the radiant energy budget of Mars, which suggests that there are energy imbalances at the time scale of Mars's seasons.
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Radiant Energy Budgets and Internal Heat of Planets and Moons
Liming Li,Robert A. West,M. Kenyon,Conor A. Nixon,Patrick M. Fry,Daniel Wenkert,Mark Hofstadter,Xun Jiang,Ellen C. Creecy,Agustín Sánchez-Lavega,Kevin H. Baines,Anthony Mallama,Renyu Hu,Richard Achterbert,Shahid Aslam,Don Banfield,Ulyana A. Dyudina,J. J. Fortney,Andrew P. Ingersoll,A. Kleinböhl,Leigh N. Fletcher,Sanjay S. Limaye,Mark S. Marley,Michael D. Smith,Krista M. Soderlund,Linda Spilker,Cindy L. Young +26 more
TL;DR: In this paper, the authors recommend future exploration to better understand the global radiant energy budgets and internal heat of planets and moons in our solar system, which can help us understand the geology of Mars, internal heat related to the formation and evolution of giant planets, and sub-surface internal heat driving the jet plumes on some moons.
The Bolometric Bond Albedo of Enceladus
Li‐Ming Li,Larry Guan,Sherry Li,Cindy Luu,Kevin Heng,Patrick M. Fry,Ellen C. Creecy,Xinyue Wang,Ronald J. Albright,Thishan D. Karandana G.,Robert West,Conor A. Nixon,Matthew E. Kenyon,Amanda R. Hendrix,Ulyana A. Dyudina +14 more
TL;DR: In this article , the full-disk reflectance of Enceladus across all phase angles (0° -180°) from 150 nm to 5131 nm, a spectral range that accounts for nearly all incoming solar power.