The TEMPO Survey. I. Predicting Yields of Transiting Exosatellites, Moons, and 
Planets from a 30 days Survey of Orion with the Roman Space Telescope

Limbach, Mary Anne; Soares-Furtado, Melinda; Vanderburg, Andrew; Best, William M. J.; Cody, Ann Marie; D'Onghia, Elena; Heller, René; Hensley, Brandon S.; Kounkel, Marina; Kraus, Adam; Mann, Andrew W.; Robberto, Massimo; Rosen, Anna L.; Townsend, Richard; Vos, Johanna M.

doi:10.1088/1538-3873/acafa4

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The TEMPO Survey. I. Predicting Yields of Transiting Exosatellites, Moons, and Planets from a 30 days Survey of Orion with the Roman Space Telescope

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D'Onghia, Elena
Optical and Interpretative Astronomy, MPI for Extraterrestrial Physics, Max Planck Society;

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Heller, René
Department Solar and Stellar Interiors, Max Planck Institute for Solar System Research, Max Planck Society;

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https://ui.adsabs.harvard.edu/abs/2023PASP..135a4401L
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Zitation

Limbach, M. A., Soares-Furtado, M., Vanderburg, A., Best, W. M. J., Cody, A. M., D'Onghia, E., et al. (2023). The TEMPO Survey. I. Predicting Yields of Transiting Exosatellites, Moons, and Planets from a 30 days Survey of Orion with the Roman Space Telescope. Publications of the Astronomical Society of the Pacific, 135, 014401. doi:10.1088/1538-3873/acafa4.

Zitierlink: https://hdl.handle.net/21.11116/0000-000C-AAE1-6

Zusammenfassung

We present design considerations for the Transiting Exosatellites, Moons, and Planets in Orion (TEMPO) Survey with the Nancy Grace Roman Space Telescope. This proposed 30 days survey is designed to detect a population of transiting extrasolar satellites, moons, and planets in the Orion Nebula Cluster (ONC). The young (1-3 Myr), densely populated ONC harbors about a thousand bright brown dwarfs (BDs) and free-floating planetary-mass objects (FFPs). TEMPO offers sufficient photometric precision to monitor FFPs with M >1 M _J for transiting satellites. The survey is also capable of detecting FFPs down to sub-Saturn masses via direct imaging, although follow-up confirmation will be challenging. TEMPO yield estimates include 14 (3-22) exomoons/satellites transiting FFPs and 54 (8-100) satellites transiting BDs. Of this population, approximately 50% of companions would be "super-Titans" (Titan to Earth mass). Yield estimates also include approximately 150 exoplanets transiting young Orion stars, of which >50% will orbit mid-to-late M dwarfs. TEMPO would provide the first census demographics of small exosatellites orbiting FFPs and BDs, while simultaneously offering insights into exoplanet evolution at the earliest stages. This detected exosatellite population is likely to be markedly different from the current census of exoplanets with similar masses (e.g., Earth-mass exosatellites that still possess H/He envelopes). Although our yield estimates are highly uncertain, as there are no known exoplanets or exomoons analogous to these satellites, the TEMPO survey would test the prevailing theories of exosatellite formation and evolution, which limit the certainty surrounding detection yields.