Poster Open Access
Transit Timing in the Kepler Field with PLATO: The case for 24 cameras on the Kepler Field
Jontof-Hutter, Daniel; Lissauer, Jack; Rowe, Jason
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"description": "<p>Since TTV signals increase with observational baseline, PLATO's stare at the<br>\nKepler field will yield transit timing variations with a total baseline that<br>\nincludes both missions, an important opportunity unique to the PLATO mission.<br>\n<br>\nWe discuss the regimes in period and radius where Kepler and TESS provide<br>\ngood samples for planet characterization, and highlight where PLATO could<br>\nmaximize its impact; where Kepler planets are expected to have TTV signals<br>\nregardless of their prior detection, and where the TTV periodicity is<br>\ncomparable to or exceeds the Kepler baseline.<br>\n<br>\nWe argue that PLATO's impact in characterizing low-mass planets with transit<br>\ntiming will be significantly enhanced by centering Long-duration Observation<br>\nPhases on the Kepler field to ensure that 24 cameras observe Kepler targets,<br>\nenabling similar transit timing precision to Kepler. Transit timing<br>\nuncertainty scales as ~1/SNR. Hence, having just 6 (or 12) cameras on the<br>\nKepler field instead of 24 would increase transit timing uncertainties by ~2<br>\n(or sqrt(2)).<br>\n<br>\nFinally, we provide some examples of anticipated highlights from PLATO in<br>\ncharacterizing planets with transit timing.<br>\n </p>",
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"title": "Transit Timing in the Kepler Field with PLATO: The case for 24 cameras on the Kepler Field",
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85
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| All versions | This version | |
|---|---|---|
| Views | 85 | 85 |
| Downloads | 48 | 48 |
| Data volume | 176.9 MB | 176.9 MB |
| Unique views | 81 | 81 |
| Unique downloads | 42 | 42 |
Indexed in
- Publication date:
- October 5, 2021
- DOI:
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- Communities:
- License (for files):
- Creative Commons Attribution 4.0 International