Exoplanets and Stellar Physics

The EXoplanet Climate Infrared TElescope (EXCITE)

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 12184 (2022) 121840v-121840v-11

Authors:

Peter C Nagler, Lee Bernard, Andrea Bocchieri, Nat Butler, Quentin Changeat, Azzurra D'Alessandro, Billy Edwards, John Gamaunt, Qian Gong, John Hartley, Kyle Helson, Logan Jensen, Daniel P Kelly, Kanchita Klangboonkrong, Annalies Kleyheeg, Nikole K Lewis, Steven Li, Michael Line, Stephen F Maher, Ryan McClelland, Laddawan R Miko, Lorenzo V Mugnai, C Barth Netterfield, Vivien Parmentier, Enzo Pascale, Jennifer Patience, Tim Rehm, Javier Romualdez, Subhajit Sarkar, Paul A Scowen, Gregory S Tucker, Augustyn Waczynski, Ingo Waldmann

The design and development status of the cryogenic receiver for the EXoplanet Climate Infrared TELescope (EXCITE)

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 12184 (2022) 121842i-121842i-7

Authors:

Tim Rehm, Lee Bernard, Andrea Bocchieri, Nat Butler, Quentin Changeat, Azzurra D'Alessandro, Billy Edwards, John Gamaunt, Qian Gong, John Hartley, Kyle Helson, Logan Jensen, Daniel P Kelly, Kanchita Klangboonkrong, Annalies Kleyheeg, Nikole Lewis, Steven Li, Michael Line, Stephen F Maher, Ryan McClelland, Laddawan R Miko, Lorenzo Mugnai, Peter Nagler, C Barth Netterfield, Vivien Parmentier, Enzo Pascale, Jennifer Patience, Javier Romualdez, Subhajit Sarkar, Paul A Scowen, Gregory S Tucker, Augustyn Waczynski, Ingo Waldmann

HARMONI at ELT: towards a final design for the Natural Guide Star Sensors system

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 12187 (2022) 121871d-121871d-16

Authors:

K Dohlen, P Vola, Z Challita, T Morris, JF Sauvage, L Jocou, A Estrada, T Louth, W Bon, M Dubbeldam, D Montgomery, J-L Gimenez, T Viera Cuberlo, Y Charles, D Le Mignant, A Carlotti, J Pequeiras, K El Hadi, W Humphreys, B Neichel, T Fusco, F Clarke, D Melotte, N Thatte

HARMONI- the Extremely Large Telescope first light integral field spectrograph: a novel control architecture to integrate the science instrument control system with that of adaptive optics

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 12187 (2022) 1218707-1218707-20

Authors:

Hermine Schnetler, Charlotte Bond, Haresh Chulani, Fraser Clarke, Anne Costille, Graciela Delgado Garcia, Jose Miguel Delgado, Sofia Dimoudi, Andrew Dunn, Elizabeth George, Alberto Estrada Piqueras, Sylvain Guieu, Enrique Joven, Marie Larrieu, Yolanda Martin Hernando, Cecilia Martinez Martin, Saul Menendez-Mendoza, Chris Miller, Tim Morris, Arlette Pecontal, Javier Piqueras Lopez, Luis Fernando Rodriguez Ramos, Jörg Stegmeier, Matthew Townson, Teodora Viera, Thierry Fusco, David Le Mignant, Benoît Neichel, Dave Melotte, Matthias Tecza, Niranjan Thatte

K2 and Spitzer phase curves of the rocky ultra-short-period planet K2-141 b hint at a tenuous rock vapor atmosphere

Astronomy and Astrophysics EDP Sciences 664 (2022) A79

Authors:

S Zieba, M Zilinskas, L Kreidberg, Tg Nguyen, Y Miguel, Nb Cowan, R Pierrehumbert, L Carone, L Dang, M Hammond, T Louden, R Lupu, L Malavolta, Kb Stevenson

Abstract:

K2-141 b is a transiting, small (1.5 R⊕) ultra-short-period (USP) planet discovered by the Kepler space telescope orbiting a K-dwarf host star every 6.7 h. The planet's high surface temperature of more than 2000 K makes it an excellent target for thermal emission observations. Here we present 65 h of continuous photometric observations of K2-141 b collected with Spitzer's Infrared Array Camera (IRAC) Channel 2 at 4.5 μm spanning ten full orbits of the planet. We measured an infrared eclipse depth of ppm and a peak to trough amplitude variation of ppm. The best fit model to the Spitzer data shows no significant thermal hotspot offset, in contrast to the previously observed offset for the well-studied USP planet 55 Cnc e. We also jointly analyzed the new Spitzer observations with the photometry collected by Kepler during two separate K2 campaigns. We modeled the planetary emission with a range of toy models that include a reflective and a thermal contribution. With a two-temperature model, we measured a dayside temperature of Tp,d = 2049 ³⁶²_-359 K and a night-side temperature that is consistent with zero (Tp,n < 1712 K at 2σ). Models with a steep dayside temperature gradient provide a better fit to the data than a uniform dayside temperature (ΔBIC = 22.2). We also found evidence for a nonzero geometric albedo A_g = 0.282^0.070_-0.078. We also compared the data to a physically motivated, pseudo-2D rock vapor model and a 1D turbulent boundary layer model. Both models fit the data well. Notably, we found that the optical eclipse depth can be explained by thermal emission from a hot inversion layer, rather than reflected light. A thermal inversion may also be responsible for the deep optical eclipse observed for another USP, Kepler-10 b. Finally, we significantly improved the ephemerides for K2-141 b and c, which will facilitate further follow-up observations of this interesting system with state-of-the-art observatories such as James Webb Space Telescope.