Revised Architecture and Two New Super-Earths in the HD 134606 Planetary System
Article
Article Title | Revised Architecture and Two New Super-Earths in the HD 134606 Planetary System |
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ERA Journal ID | 1048 |
Article Category | Article |
Authors | Li, Zhexing, Kane, Stephen R., Brandt, Timothy D., Fetherolf, Tara, Robertson, Paul, Zhao, Jinglin, Dalba, Paul A., Wittenmyer, Robert A., Butler, R. Paul, Diaz, Matías R., Howell, Steve B., Bailey, Jeremy, Carter, Brad, Furlan, Elise, Gnilka, Crystal L., Horner, Jonathan, Jones, Hugh R. A., O'Toole, Simon and Tinney, Chris |
Journal Title | The Astronomical Journal |
Journal Citation | 167 (4) |
Article Number | 155 |
Number of Pages | 17 |
Year | 2024 |
Publisher | IOP Publishing |
Place of Publication | United States |
ISSN | 0004-6256 |
1538-3881 | |
Digital Object Identifier (DOI) | https://doi.org/10.3847/1538-3881/ad2461 |
Web Address (URL) | https://iopscience.iop.org/article/10.3847/1538-3881/ad2461 |
Abstract | Multiplanet systems exhibit a diversity of architectures that diverge from the solar system and contribute to the topic of exoplanet demographics. Radial velocity (RV) surveys form a crucial component of exoplanet surveys, as their long observational baselines allow for searches for more distant planetary orbits. This work provides a significantly revised architecture for the multiplanet system HD 134606 using both HARPS and UCLES RVs. We confirm the presence of previously reported planets b, c, and d with periods of 12.0897 ? 0.0018 + 0.0019 , 58.947 ? 0.054 + 0.056 , and 958.7 ? 5.9 + 6.3 days and masses of 9.14 ? 0.63 + 0.65 , 11.0 ± 1, and 44.5 ± 2.9 Earth masses, respectively, with the planet d orbit significantly revised to over double that originally reported. We report two newly detected super-Earths, e and f, with periods of 4.31943 ? 0.00068 + 0.00075 and 26.9 ? 0.017 + 0.019 days and masses of 2.31 ? 0.35 + 0.36 and 5.52 ? 0.73 + 0.74 Earth masses, respectively. In addition, we identify a linear trend in the RV time series, and the cause of this acceleration is deemed to be a newly detected massive companion with a very long orbital period. HD 134606 now displays four low-mass planets in a compact region near the star, one gas giant further out in the habitable zone, an additional companion in the outer regime, and a low-mass M dwarf stellar companion at large separation, making it an intriguing target for system formation/evolution studies. The location of planet d in the habitable zone proves to be an exciting candidate for future space-based direct imaging missions, whereas continued RV observations of this system are recommended for understanding the nature of the massive, long-period companion. © 2024. The Author(s). Published by the American Astronomical Society. |
Multiplanet systems exhibit a diversity of architectures that diverge from the solar system and contribute to the topic of exoplanet demographics. Radial velocity (RV) surveys form a crucial component of exoplanet surveys, as their long observational baselines allow for searches for more distant planetary orbits. This work provides a significantly revised architecture for the multiplanet system HD 134606 using both HARPS and UCLES RVs. We confirm the presence of previously reported planets b, c, and d with periods of 12.0897 0.0018 0.0019 - + , 58.947 0.054 0.056 - + , and 958.7 5.9 6.3 - + days and masses of 9.14 0.63 0.65 - + , 11.0 ± 1, and 44.5 ± 2.9 Earth masses, respectively, with the planet d orbit significantly revised to over double that originally reported. We report two newly detected super-Earths, e and f, with periods of 4.31943 0.00068 0.00075 - + and 26.9 0.017 0.019 - + days and masses of 2.31 0.35 0.36 - + and 5.52 0.73 0.74 - + Earth masses, respectively. In addition, we identify a linear trend in the RV time series, and the cause of this acceleration is deemed to be a newly detected massive companion with a very long orbital period. HD 134606 now displays four low-mass planets in a compact region near the star, one gas giant further out in the habitable zone, an additional companion in the outer regime, and a low-mass M dwarf stellar companion at large separation, making it an intriguing target for system formation/evolution studies. The location of planet d in the habitable zone proves to be an exciting candidate for future space-based direct imaging missions, whereas continued RV observations of this system are recommended for understanding the nature of the massive, long-period companion. | |
Keywords | Orbits ; Stella activity; Exoplanets ; Exoplanet detection methods; Exoplanet dynamics; Exoplanet systems; Radial velocity; Photometry ; High contrast techniques; Astrometry |
Contains Sensitive Content | Does not contain sensitive content |
ANZSRC Field of Research 2020 | 510109. Stellar astronomy and planetary systems |
Byline Affiliations | University of California Riverside, United Sates |
University of California Santa Barbara, United States | |
California State University San Marcos, United States | |
University of California Irvine, United States | |
Technical University of Denmark, Denmark | |
Pennsylvania State University, United States | |
University of California Santa Cruz, United States | |
Centre for Astrophysics | |
Carnegie Institution for Science, United States | |
Carnegie Institution of Washington, United States | |
NASA Ames Research Center, United States | |
University of New South Wales | |
NASA Exoplanet Science Institute, United States | |
University of Hertfordshire, United Kingdom | |
Macquarie University |
https://research.usq.edu.au/item/z8521/revised-architecture-and-two-new-super-earths-in-the-hd-134606-planetary-system
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