Your search keyword '"Sheppard, Kyle"' showing total 14 results

1. The transmission spectrum of the potentially rocky planet L 98-59 c

Author

Barclay, Thomas, Sheppard, Kyle B., Latouf, Natasha, Mandell, Avi M., Quintana, Elisa V., Gilbert, Emily A., Liuzzi, Giuliano, Villanueva, Geronimo L., Arney, Giada, Brande, Jonathan, Colón, Knicole D., Covone, Giovanni, Crossfield, Ian J. M., Damiano, Mario, Domagal-Goldman, Shawn D., Fauchez, Thomas J., Fiscale, Stefano, Gallo, Francesco, Hedges, Christina L., Hu, Renyu, Kite, Edwin S., Koll, Daniel, Kopparapu, Ravi K., Kostov, Veselin B., Kreidberg, Laura, Lopez, Eric D., Mang, James, Morley, Caroline V., Mullally, Fergal, Mullally, Susan E., Pidhorodetska, Daria, Schlieder, Joshua E., Vega, Laura D., Youngblood, Allison, and Zieba, Sebastian

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present observations of the 1.35+/-0.07 Earth-radius planet L 98-59 c using Wide Field Camera~3 on the Hubble Space Telescope. L 98-59 is a nearby (10.6 pc), bright (H=7.4 mag), M3V star that harbors three small, transiting planets. As one of the closest known transiting multi-planet systems, L 98-59 offers one of the best opportunities to probe and compare the atmospheres of rocky planets that formed in the same stellar environment. We measured the transmission spectrum of L 98-59 c during a single transit, with the extracted spectrum showing marginal evidence for wavelength-dependent transit depth variations which would indicate the presence of an atmosphere. Forward modeling was used to constrain possible atmospheric compositions of the planet based on the shape of the transmission spectrum. Although L 98-59 is a fairly quiet star, we have seen evidence for stellar activity, and therefore we cannot rule out a scenario where the source of the signal originates with inhomogeneities on the host-star surface. While intriguing, our results are inconclusive and additional data is needed to verify any atmospheric signal. Fortunately, additional data will soon be collected from both HST and JWST. Should this result be confirmed with additional data, L 98-59 c would be the first planet smaller than 2 Earth-radii with a detected atmosphere, and among the first small planets with a known atmosphere to be studied in detail by the JWST., Comment: Submitted to AAS Journals

Published

2023

2. The Hubble PanCET program: Emission spectrum of hot Jupiter HAT-P-41b

Author

Fu, Guangwei, Sing, David K., Deming, Drake, Sheppard, Kyle, Wakeford, H. R., Mikal-Evans, Thomas, Alam, Munazza K., Santos, Leonardo A. Dos, and López-Morales, Mercedes

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the most complete emission spectrum for inflated hot Jupiter HAT-P-41b combining new HST WFC/G141 spectrum from the Hubble Panchromatic Comparative Exoplanet Treasury (PanCET) program with archival Spitzer eclipse observations. We found a near blackbody-like emission spectrum which is best fitted with an isothermal temperature-pressure (TP) profile that agrees well with the dayside heat redistribution scenario assuming zero Bond albedo. The non-inverted TP profile is consistent with the non-detection of NUV/optical absorbers in the transit spectra. We do not find any evidence for significant H$^-$ opacity nor a metal-rich atmosphere. HAT-P-41b is an ideal target that sits in the transitioning parameter space between hot and ultra-hot Jupiters, and future JWST observations will help us to better constrain the thermal structure and chemical composition., Comment: Accepted for publication in AJ

Published

2022

3. The Hubble PanCET Program: A Metal-rich Atmosphere for the Inflated Hot Jupiter HAT-P-41b

Author

Sheppard, Kyle B., Welbanks, Luis, Mandell, Avi, Madhusudhan, Nikku, Nikolov, Nikolay, Deming, Drake, Henry, Gregory W., Williamson, Michael H., Sing, David K., López-Morales, Mercedes, Ih, Jegug, Sanz-Forcada, Jorge, Lavvas, Panayotis, Ballester, Gilda E., Evans, Thomas M., Muñoz, Antonio García, and Santos, Leonardo A. Dos

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present a comprehensive analysis of the 0.3--5\,$\mu$m transit spectrum for the inflated hot Jupiter HAT-P-41b. The planet was observed in transit with Hubble STIS and WFC3 as part of the Hubble Panchromatic Comparative Exoplanet Treasury (PanCET) program, and we combine those data with warm \textit{Spitzer} transit observations. We extract transit depths from each of the data sets, presenting the STIS transit spectrum (0.29--0.93\,$\mu$m) for the first time. We retrieve the transit spectrum both with a free-chemistry retrieval suite (AURA) and a complementary chemical equilibrium retrieval suite (PLATON) to constrain the atmospheric properties at the day-night terminator. Both methods provide an excellent fit to the observed spectrum. Both AURA and PLATON retrieve a metal-rich atmosphere for almost all model assumptions (most likely O/H ratio of $\log_{10}{Z/Z_{\odot}} = 1.46^{+0.53}_{-0.68}$ and $\log_{10}{Z/Z_{\odot}} = 2.33^{+0.23}_{-0.25}$, respectively); this is driven by a 4.9-$\sigma$ detection of H$_2$O as well as evidence of gas absorption in the optical ($>$2.7-$\sigma$ detection) due to Na, AlO and/or VO/TiO, though no individual species is strongly detected. Both retrievals determine the transit spectrum to be consistent with a clear atmosphere, with no evidence of haze or high-altitude clouds. Interior modeling constraints on the maximum atmospheric metallicity ($\log_{10}{Z/Z_{\odot}} < 1.7$) favor the AURA results. The inferred elemental oxygen abundance suggests that HAT-P-41b has one of the most metal-rich atmospheres of any hot Jupiters known to date. Overall, the inferred high metallicity and high inflation make HAT-P-41b an interesting test case for planet formation theories., Comment: Resubmitted to AAS Journals after revisions

Published

2020

4. Evidence for a Dayside Thermal Inversion and High Metallicity for the Hot Jupiter WASP-18b

Author

Sheppard, Kyle, Mandell, Avi M., Tamburo, Patrick, Gandhi, Siddarth, Pinhas, Arazi, Madhusudhan, Nikku, and Deming, Drake

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We find evidence for a strong thermal inversion in the dayside atmosphere of the highly irradiated hot Jupiter WASP-18b (T$_{eq}=2411K$, $M=10.3M_{J}$) based on emission spectroscopy from Hubble Space Telescope secondary eclipse observations and Spitzer eclipse photometry. We demonstrate a lack of water vapor in either absorption or emission at 1.4$\mu$m. However, we infer emission at 4.5$\mu$m and absorption at 1.6$\mu$m that we attribute to CO, as well as a non-detection of all other relevant species (e.g., TiO, VO). The most probable atmospheric retrieval solution indicates a C/O ratio of 1 and a high metallicity (C/H=$283^{+395}_{-138}\times$ solar). The derived composition and T/P profile suggest that WASP-18b is the first example of both a planet with a non-oxide driven thermal inversion and a planet with an atmospheric metallicity inconsistent with that predicted for Jupiter-mass planets at $>2\sigma$. Future observations are necessary to confirm the unusual planetary properties implied by these results., Comment: 7 pages, 4 figures, 1 table, published in ApJ Letters 11/29

Published

2017

5. Spectral Resolution-linked Bias in Transit Spectroscopy of Extrasolar Planets

Author

Deming, Drake and Sheppard, Kyle

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We re-visit the principles of transmission spectroscopy for transiting extrasolar planets, focusing on the overlap between the planetary spectrum and the illuminating stellar spectrum. Virtually all current models of exoplanetary transmission spectra utilize an approximation that is inaccurate when the spectrum of the illuminating star has a complex line structure, such as molecular bands in M-dwarf spectra. In those cases, it is desirable to model the observations using a coupled stellar-planetary radiative transfer model calculated at high spectral resolving power, followed by convolution to the observed resolution. Not consistently accounting for overlap of stellar M-dwarf and planetary lines at high spectral resolution can bias the modeled amplitude of the exoplanetary transmission spectrum, producing modeled absorption that is too strong. We illustrate this bias using the exoplanet TRAPPIST-1b, as observed using HST/WFC3. The bias in this case is about 250 parts-per-million, 12% of the modeled transit absorption. Transit spectroscopy using JWST will have access to longer wavelengths where the water bands are intrinsically stronger, and the observed signal-to-noise ratios will be higher than currently possible. We therefore expect that this resolution-linked bias will be especially important for future JWST observations of TESS-discovered super-Earths and mini Neptunes transiting M-dwarfs., Comment: Accepted for ApJ Letters

Published

2017

6. Standardization of Pediatric Noncardiac Operating Room to Intensive Care Unit Handoffs Improves Communication and Patient Care

Author

Hebballi, Nutan B., Gupta, Vikas S., Sheppard, Kyle, Kubanda, Ann, Salley, Danielle, Ostovar-Kermani, Tiffany, Bryndzia, Christina, Khan, Amir M., Wadhwa, Nitin, Tsao, KuoJen, Jain, Ranu, and Kawaguchi, Akemi L.

Published

2022

7. A Multidisciplinary Approach for the Management of Portal Vein Thrombosis

Author

Sheppard, Kyle, primary, Roberts, Morgan E., additional, Bernard, Jonathan, additional, Wood, Brian, additional, Lee, Yannlei L., additional, Williams, Ashley Y., additional, Capasso, Thomas, additional, Butts, Caleb C., additional, Polite, Nathan, additional, Simmons, John D., additional, Bright, Andrew, additional, Kinnard, Christopher, additional, and Mbaka, Maryann, additional

Published

2023

8. The Hubble PanCET Program: Emission Spectrum of Hot Jupiter HAT-P-41b

Author

Fu, Guangwei, primary, Sing, David K., additional, Deming, Drake, additional, Sheppard, Kyle, additional, Wakeford, H. R., additional, Mikal-Evans, Thomas, additional, Alam, Munazza K., additional, Dos Santos, Leonardo A., additional, López-Morales, Mercedes, additional, and Lothringer, Joshua D., additional

Published

2022

9. Revealing Unique Exoplanet Atmospheres with Multi-Instrument Space Telescope Transit and Eclipse Spectroscopy

Author

Sheppard, Kyle Benensohn

Subjects

Atmospheric sciences, exoplanets, planets, Astronomy, atmospheres, bayesian, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics, retrieval

Abstract

Atmospheres act as windows into their host planets, containing measurable information on their planets' chemistry, climate, and atmospheric physics. The bulk properties of planets outside of the Solar System (exoplanets) prove to be much more varied than the Solar System, allowing the ability to test atmospheric models over a range of temperatures, radii, and host star properties. Modeling and observing exoplanet atmospheres provides a better understanding of both atmospheric processes and planetary diversity, and it places the Solar System in a greater context to understand how unique it is, if at all. I take a broad approach, analyzing both transit and emission spectroscopy of 5 exoplanets populating the edges of parameter space, ranging from cool, Earth-sized planets (T$\sim$500K, R=0.8\rearth{}) up to massive, ultra-hot Jupiters (T$\sim$2500K, M=10\mjup{}). I use my publicly available, open source Python 3 analysis pipeline \texttt{DEFLATE} to process telescope data and produce verifiable spectra. I then retrieve atmospheric properties using a forward model + Bayesian sampler retrieval tool, exploring how both inter- and intra- modeling assumptions impact results. I retrieve unexpected atmospheres, including: evidence of stellar activity mimicking water vapor features in two terrestrial planets in the multi-planet L9859 system; evidence of a clear atmosphere and a superstellar atmospheric metallicity and water abundance ($5\sigma$ detection) in the hot Jupiter HAT-P-41b (R=1.65\rjup{}, T$_{\textrm{eq}}$=1950~K); a potentially non-TiO driven thermal inversion and a photometric CO detection ($6\sigma$) in the ultrahot Jupiter WASP-18b; and a water absorption feature ($2.8\sigma$) and non-inverted T-P profile in the water-dissociation-vulnerable hot Jupiter WASP-19b (R=1.4\rjup{}, T$_{\textrm{eq}}$=2120~K). Overall, these results expand already extensive diversity of exoplanet atmospheres.

Published

2021

10. The Hubble PanCET Program: A Metal-rich Atmosphere for the Inflated Hot Jupiter HAT-P-41b

Author

Sheppard, Kyle B., primary, Welbanks, Luis, additional, Mandell, Avi M., additional, Madhusudhan, Nikku, additional, Nikolov, Nikolay, additional, Deming, Drake, additional, Henry, Gregory W., additional, Williamson, Michael H., additional, Sing, David K., additional, López-Morales, Mercedes, additional, Ih, Jegug, additional, Sanz-Forcada, Jorge, additional, Lavvas, Panayotis, additional, Ballester, Gilda E., additional, Evans, Thomas M., additional, Muñoz, Antonio García, additional, and dos Santos, Leonardo A., additional

Published

2021

11. Evidence for a Dayside Thermal Inversion and High Metallicity for the Hot Jupiter WASP-18b

Author

Sheppard, Kyle B., primary, Mandell, Avi M., additional, Tamburo, Patrick, additional, Gandhi, Siddharth, additional, Pinhas, Arazi, additional, Madhusudhan, Nikku, additional, and Deming, Drake, additional

Published

2017

12. Spectral Resolution-linked Bias in Transit Spectroscopy of Extrasolar Planets

Author

Deming, Drake, primary and Sheppard, Kyle, additional

Published

2017

13. A Pustule from Portugal

Author

Dylewski, J, primary and Sheppard, Kyle, additional

Published

2003

14. Spectral Resolution-linked Bias in Transit Spectroscopy of Extrasolar Planets

Author

Sheppard, Kyle [Department of Astronomy, University of Maryland at College Park, College Park, MD 20742 (United States)]

Published

2017