Dr. Rabus, Markus

2022, Wittenmyer, Robert, Clark, Jake, Trifonov, Trifon, Addison, Brett, Wright, Duncan, Stassun, Keivan, Horner, Jonathan, Lowson, Nataliea, Kielkopf, John, Kane, Stephen, Plavchan, Peter, Shporer, Avi, Zhang, Hui, Bowler, Brendan, Mengel, Matthew, Okumura, Jack, Rabus, Markus, Johnson, Marshall, Harbeck, Daniel, Tronsgaard, René, Buchhave, Lars, Collins, Karen, Collins, Kevin, Gan, Tianjun, Jensen, Eric, Howell, Steve, Furlan, E., Gnilka, Crystal, Lester, Kathryn, Matson, Rachel, Scott, Nicholas, Ricker, George, Vanderspek, Roland, Latham, David, Seager, S., Winn, Joshua, Jenkins, Jon, Rudat, Alexander, Quintana, Elisa, Rodriguez, David, Caldwell, Douglas, Quinn, Samuel, Essack, Zahra, Bouma, Luke

The imminent launch of space telescopes designed to probe the atmospheres of exoplanets has prompted new efforts to prioritize the thousands of transiting planet candidates for follow-up characterization. We report the detection and confirmation of TOI-1842b, a warm Saturn identified by TESS and confirmed with ground-based observations from Minerva-Australis, NRES, and the Las Cumbres Observatory Global Telescope. This planet has a radius of R J, a mass of M J, an orbital period of days, and an extremely low density (? = 0.252 0.091 g cm-3). TOI-1842b has among the best known combinations of large atmospheric scale height (893 km) and host-star brightness (J = 8.747 mag), making it an attractive target for atmospheric characterization. As the host star is beginning to evolve off the main sequence, TOI-1842b presents an excellent opportunity to test models of gas giant reinflation. The primary transit duration of only 4.3 hr also makes TOI-1842b an easily-schedulable target for further ground-based atmospheric characterization. © 2022. The American Astronomical Society. All rights reserved.

2022, Ikwut Ukwa, Mma, Rodriguez, Joseph, Quinn, Samuel, Zhou, George, Vanderburg, Andrew, Ali, Asma, Bunten, Katya, Gaudi, Scott, Latham, David, Howell, Steve, Huang, Chelsea, Bieryla, Allyson, Collins, Karen, Carmichael, Theron, Rabus, Markus, Eastman, Jason, Collins, Kevin, Tan, Thiam, Schwarz, Richard, Myers, Gordon, Stockdale, Chris, Kielkopf, John, Radford, Don, Oelkers, Ryan, Jenkins, Jon, Ricker, George, Seager, Sara, Vanderspek, Roland, Winn, Joshua, Burt, Jennifer, Butler, R., Calkins, Michael, Crane, Jeffrey, Gnilka, Crystal, Esquerdo, Gilbert, Fong, William, Kreidberg, Laura, Mink, Jessica, Rodriguez, David, Schlieder, Joshua, Shectman, Stephen, Shporer, Avi, Teske, Johanna, Ting, Eric, Villaseñor, Jesus, Yahalomi, Daniel

We report the discovery of two short-period massive giant planets from NASA's Transiting Exoplanet Survey Satellite (TESS). Both systems, TOI-558 (TIC 207110080) and TOI-559 (TIC 209459275), were identified from the 30 minute cadence full-frame images and confirmed using ground-based photometric and spectroscopic follow-up observations from TESS's follow-up observing program working group. We find that TOI-558 b, which transits an F-dwarf (M* = ${1.349}_{-0.065}^{+0.064}$ M⊙, R* = ${1.496}_{-0.040}^{+0.042}$ R⊙, Teff = ${6466}_{-93}^{+95}$ K, age ${1.79}_{-0.73}^{+0.91}$ Gyr) with an orbital period of 14.574 days, has a mass of 3.61 ± 0.15 MJ, a radius of ${1.086}_{-0.038}^{+0.041}$ RJ, and an eccentric (e = ${0.300}_{-0.020}^{+0.022}$) orbit. TOI-559 b transits a G dwarf (M* = 1.026 ± 0.057 M⊙, R* = ${1.233}_{-0.026}^{+0.028}$ R⊙, Teff = ${5925}_{-76}^{+85}$ K, age ${6.8}_{-2.0}^{+2.5}$ Gyr) in an eccentric (e = 0.151 ± 0.011) 6.984 days orbit with a mass of ${6.01}_{-0.23}^{+0.24}$ MJ and a radius of ${1.091}_{-0.025}^{+0.028}$ RJ. Our spectroscopic follow up also reveals a long-term radial velocity trend for TOI-559, indicating a long-period companion. The statistically significant orbital eccentricity measured for each system suggests that these planets migrated to their current location through dynamical interactions. Interestingly, both planets are also massive (>3 MJ), adding to the population of massive giant planets identified by TESS. Prompted by these new detections of high-mass planets, we analyzed the known mass distribution of hot and warm Jupiters but find no significant evidence for multiple populations. TESS should provide a near magnitude-limited sample of transiting hot Jupiters, allowing for future detailed population studies.