Nora Eisner

Planet Hunters TESS III: two transiting planets around the bright G dwarf HD 152843

Monthly Notices of the Royal Astronomical Society, Volume 505, Issue 2, August 2021, Pages 1827–1840

Authors:

N L Eisner, B A Nicholson, O Barragán, S Aigrain, C Lintott, L Kaye, B Klein, G Miller, J Taylor, N Zicher, L A Buchhave, D A Caldwell, J Horner, J Llama, A Mortier, V M Rajpaul, K Stassun, A Sporer, A Tkachenko, J M Jenkins, D Latham, G Ricker, S Seager, J Winn, S Alhassan, E M L Baeten, S J Bean, D M Bundy, V Efremov, R Ferstenou, B L Goodwin, M Hof, T Hoffman, A Hubert, L Lau, S Lee, D Maetschke, K Peltsch, C Rubio-Alfaro, G M Wilson

Abstract:

We report on the discovery and validation of a two-planet system around a bright (V = 8.85 mag) early G dwarf (1.43  R⊙, 1.15  M⊙, TOI 2319) using data from NASA’s Transiting Exoplanet Survey Satellite (TESS). Three transit events from two planets were detected by citizen scientists in the month-long TESS light curve (sector 25), as part of the Planet Hunters TESS project. Modelling of the transits yields an orbital period of 11.6264+0.0022−0.0025 d and radius of 3.41+0.14−0.12 R⊕ for the inner planet, and a period in the range 19.26–35 d and a radius of 5.83+0.14−0.14 R⊕ for the outer planet, which was only seen to transit once. Each signal was independently statistically validated, taking into consideration the TESS light curve as well as the ground-based spectroscopic follow-up observations. Radial velocities from HARPS-N and EXPRES yield a tentative detection of planet b, whose mass we estimate to be 11.56+6.58−6.14 M⊕, and allow us to place an upper limit of 27.5 M⊕ (99 per cent confidence) on the mass of planet c. Due to the brightness of the host star and the strong likelihood of an extended H/He atmosphere on both planets, this system offers excellent prospects for atmospheric characterization and comparative planetology.

Planet Hunters TESS II: Findings from the first two years of TESS

Monthly Notices of the Royal Astronomical Society 501:4 (2021) 4669-4690

Authors:

Nl Eisner, O Barragán, C Lintott, S Aigrain, B Nicholson, Ts Boyajian, S Howell, C Johnston, B Lakeland, G Miller, A McMaster, H Parviainen, Ej Safron, Me Schwamb, L Trouille, S Vaughan, N Zicher, C Allen, S Allen, M Bouslog, C Johnson, Mn Simon, Z Wolfenbarger, Eml Baeten

Abstract:

© 2021 2020 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Society. We present the results from the first two years of the Planet Hunters TESS (PHT) citizen science project, which identifies planet candidates in the TESS (Transiting Exoplanet Survey Satellite) data by engaging members of the general public. Over 22 000 citizen scientists from around the world visually inspected the first 26 sectors of TESS data in order to help identify transit-like signals. We use a clustering algorithm to combine these classifications into a ranked list of events for each sector, the top 500 of which are then visually vetted by the science team. We assess the detection efficiency of this methodology by comparing our results to the list of TESS Objects of Interest (TOIs) and show that we recover 85 per cent of the TOIs with radii greater than 4 R and 51 per cent of those with radii between 3 and 4 R. Additionally, we present our 90 most promising planet candidates that had not previously been identified by other teams, 73 of which exhibit only a single-transit event in the TESS light curve, and outline our efforts to follow these candidates up using ground-based observatories. Finally, we present noteworthy stellar systems that were identified through the Planet Hunters TESS project.

Planet Hunters TESS II: findings from the first two years of TESS

Monthly Notices of the Royal Astronomical Society, Volume 501, Issue 4, March 2021, Pages 4669–4690

Authors:

N L Eisner, O Barragán, C Lintott, S Aigrain, B Nicholson, T S Boyajian, S Howell, C Johnston, B Lakeland, G Miller, A McMaster, H Parviainen, E J Safron, M E Schwamb, L Trouille, S Vaughan, N Zicher, C Allen, S Allen, M Bouslog, C Johnson, M N Simon, Z Wolfenbarger, E M L Baeten, D M Bundy, T Hoffman

Abstract:

We present the results from the first two years of the Planet Hunters TESS (PHT) citizen science project, which identifies planet candidates in the TESS (Transiting Exoplanet Survey Satellite) data by engaging members of the general public. Over 22 000 citizen scientists from around the world visually inspected the first 26 sectors of TESS data in order to help identify transit-like signals. We use a clustering algorithm to combine these classifications into a ranked list of events for each sector, the top 500 of which are then visually vetted by the science team. We assess the detection efficiency of this methodology by comparing our results to the list of TESS Objects of Interest (TOIs) and show that we recover 85 per cent of the TOIs with radii greater than 4 R⊕ and 51 per cent of those with radii between 3 and 4 R⊕. Additionally, we present our 90 most promising planet candidates that had not previously been identified by other teams, 73 of which exhibit only a single-transit event in the TESS light curve, and outline our efforts to follow these candidates up using ground-based observatories. Finally, we present noteworthy stellar systems that were identified through the Planet Hunters TESS project.

The First Habitable-zone Earth-sized Planet from TESS. I. Validation of the TOI-700 System

The American Astronomical Society. All rights reserved. The Astronomical Journal, Volume 160, Number 3

Authors:

Emily A. Gilbert, Thomas Barclay, Joshua E. Schlieder, Elisa V. Quintana, Benjamin J. Hord, Veselin B. Kostov, Eric D. Lopez, Jason F. Rowe, Kelsey Hoffman, Lucianne M. Walkowicz, Michele L. Silverstein, Joseph E. Rodriguez, Andrew Vanderburg, Gabrielle Suissa, Vladimir S. Airapetian, Matthew S. Clement, Sean N. Raymond, Andrew W. Mann, Ethan Kruse, Jack J. Lissauer, Knicole D. Colón, Ravi kumar Kopparapu, Laura Kreidberg, Sebastian Zieba, Karen A. Collins, Samuel N. Quinn, Steve B. Howell, Carl Ziegler, Eliot Halley Vrijmoet, Fred C. Adams, Giada N. Arney, Patricia T. Boyd, Jonathan Brande, Christopher J. Burke, Luca Cacciapuoti, Quadry Chance, Jessie L. Christiansen, Giovanni Covone, Tansu Daylan, Danielle Dineen, Courtney D. Dressing, Zahra Essack, Thomas J. Fauchez, Brianna Galgano, Alex R. Howe, Lisa Kaltenegger, Stephen R. Kane, Christopher Lam, Eve J. Lee, Nikole K. Lewis, Sarah E. Logsdon, Avi M. Mandell, Teresa Monsue, Fergal Mullally, Susan E. Mullally, Rishi Paudel, Daria Pidhorodetska, Peter Plavchan, Naylynn Tañón Reyes, Stephen A. Rinehart, Bárbara Rojas-Ayala, Jeffrey C. Smith, Keivan G. Stassun, Peter Tenenbaum, Laura D. Vega, Geronimo L. Villanueva, Eric T. Wolf, Allison Youngblood, George R. Ricker, Roland K. Vanderspek, David W. Latham, Sara Seager, Joshua N. Winn, Jon M. Jenkins, Gáspár Á. Bakos, César Briceño, David R. Ciardi, Ryan Cloutier, Dennis M. Conti, Andrew Couperus, Mario Di Sora, Nora L. Eisner, Mark E. Everett, Tianjun Gan, Joel D. Hartman, Todd Henry, Giovanni Isopi, Wei-Chun Jao, Eric L. N. Jensen, Nicholas Law, Franco Mallia, Rachel A. Matson, Benjamin J. Shappee, Mackenna Lee Wood, Jennifer G. Winters

Abstract:

We present the discovery and validation of a three-planet system orbiting the nearby (31.1 pc) M2 dwarf star TOI-700 (TIC 150428135). TOI-700 lies in the TESS continuous viewing zone in the Southern Ecliptic Hemisphere; observations spanning 11 sectors reveal three planets with radii ranging from 1 R⊕ to 2.6 R⊕ and orbital periods ranging from 9.98 to 37.43 days. Ground-based follow-up combined with diagnostic vetting and validation tests enables us to rule out common astrophysical false-positive scenarios and validate the system of planets. The outermost planet, TOI-700 d, has a radius of 1.19 ± 0.11 R⊕ and resides within a conservative estimate of the host star's habitable zone, where it receives a flux from its star that is approximately 86% of Earth's insolation. In contrast to some other low-mass stars that host Earth-sized planets in their habitable zones, TOI-700 exhibits low levels of stellar activity, presenting a valuable opportunity to study potentially rocky planets over a wide range of conditions affecting atmospheric escape. While atmospheric characterization of TOI-700 d with the James Webb Space Telescope (JWST) will be challenging, the larger sub-Neptune, TOI-700 c (R = 2.63 R⊕), will be an excellent target for JWST and future space-based observatories. TESS is scheduled to once again observe the Southern Hemisphere, and it will monitor TOI-700 for an additional 11 sectors in its extended mission. These observations should allow further constraints on the known planet parameters and searches for additional planets and transit timing variations in the system.

The First Habitable-zone Earth-sized Planet from TESS. I. Validation of the TOI-700 System

ASTRONOMICAL JOURNAL 160:3 (2020) ARTN 116

Authors:

Emily A Gilbert, Thomas Barclay, Joshua E Schlieder, Elisa V Quintana, Benjamin J Hord, Veselin B Kostov, Eric D Lopez, Jason F Rowe, Kelsey Hoffman, Lucianne M Walkowicz, Michele L Silverstein, Joseph E Rodriguez, Andrew Vanderburg, Gabrielle Suissa, Vladimir S Airapetian, Matthew S Clement, Sean N Raymond, Andrew W Mann, Ethan Kruse, Jack J Lissauer, Knicole D Colon, Ravi Kumar Kopparapu, Laura Kreidberg, Sebastian Zieba, Karen A Collins, Samuel N Quinn, Steve B Howell, Carl Ziegler, Eliot Halley Vrijmoet, Fred C Adams, Giada N Arney, Patricia T Boyd, Jonathan Brande, Christopher J Burke, Luca Cacciapuoti, Quadry Chance, Jessie L Christiansen, Giovanni Covone, Tansu Daylan, Danielle Dineen, Courtney D Dressing, Zahra Essack, Thomas J Fauchez, Brianna Galgano, Alex R Howe, Lisa Kaltenegger, Stephen R Kane, Christopher Lam, Eve J Lee, Nikole K Lewis, Sarah E Logsdon, Avi M Mandell, Teresa Monsue, Fergal Mullally, Susan E Mullally, Rishi R Paudel, Daria Pidhorodetska, Peter Plavchan, Naylynn Tanon Reyes, Stephen A Rinehart, Barbara Rojas-Ayala, Jeffrey C Smith, Keivan G Stassun, Peter Tenenbaum, Laura D Vega, Geronimo L Villanueva, Eric T Wolf, Allison Youngblood, George R Ricker, Roland K Vanderspek, David W Latham, Sara Seager, Joshua N Winn, Jon M Jenkins, Gaspar A Bakos, Cesar Briceno, David R Ciardi, Ryan Cloutier, Dennis M Conti, Andrew Couperus, Mario Di Sora, Nora L Eisner, Mark E Everett, Tianjun Gan, Joel D Hartman, Todd Henry, Giovanni Isopi, Wei-Chun Jao, Eric LN Jensen, Nicholas Law, Franco Mallia, Rachel A Matson, Benjamin J Shappee, Mackennae Le Wood, Jennifer G Winters