Your search keyword '"Logsdon, Sarah E."' showing total 212 results

1. BD+44 493: Chemo-Dynamical Analysis and Constraints on Companion Planetary Masses from WIYN/NEID Spectroscopy

Author

Placco, Vinicius M., Gupta, Arvind F., Almeida-Fernandes, Felipe, Logsdon, Sarah E., Rajagopal, Jayadev, Holmbeck, Erika M., Roederer, Ian U., Della Costa, John, Fernandez, Pipa, Golub, Eli, Higuera, Jesus, Patel, Yatrik, Ridgway, Susan, and Schweiker, Heidi

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

In this work, we present high-resolution (R~100,000), high signal-to-noise (S/N~800) spectroscopic observations for the well-known, bright, extremely metal-poor, carbon-enhanced star BD+44 493. We determined chemical abundances and upper limits for 17 elements from WIYN/NEID data, complemented with 11 abundances re-determined from Subaru and Hubble data, using the new, more accurate, stellar atmospheric parameters calculated in this work. Our analysis suggests that BD+44 493 is a low-mass (0.83Msun) old (12.1-13.2Gyr) second-generation star likely formed from a gas cloud enriched by a single metal-free 20.5Msun Population III star in the early Universe. With a disk-like orbit, BD+44 493 does not appear to be associated with any major merger event in the early history of the Milky Way. From the precision radial-velocity NEID measurements (median absolute deviation - MAD=16m/s), we were able to constrain companion planetary masses around BD+44 493 and rule out the presence of planets as small as msin(i)=2MJ out to periods of 100 days. This study opens a new avenue of exploration for the intersection between stellar archaeology and exoplanet science using NEID., Comment: 25 pages, 11 figures, accepted for publication on ApJ

Published

2024

2. Gaia-4b and 5b: Radial Velocity Confirmation of Gaia Astrometric Orbital Solutions Reveal a Massive Planet and a Brown Dwarf Orbiting Low-mass Stars

Author

Stefansson, Gudmundur, Mahadevan, Suvrath, Winn, Joshua, Marcussen, Marcus, Kanodia, Shubham, Albrecht, Simon, Fitzmaurice, Evan, Mikulskitye, One, Cañas, Caleb, Espinoza-Retamal, Juan Ignacio, Zwart, Yiri, Krolikowski, Daniel, Hotnisky, Andrew, Robertson, Paul, Alvarado-Montes, Jaime A., Bender, Chad, Blake, Cullen, Callingham, Joe, Cochran, William, Delamer, Megan, Diddams, Scott, Dong, Jiayin, Fernandes, Rachel, Giovanazzi, Mark, Halverson, Samuel, Libby-Roberts, Jessica, Logsdon, Sarah E, McElwain, Michael, Ninan, Joe, Rajagopal, Jayadev, Reji, Varghese, Roy, Arpita, Schwab, Christian, and Wright, Jason

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Gaia astrometry of nearby stars is precise enough to detect the tiny displacements induced by substellar companions, but radial velocity data are needed for definitive confirmation. Here we present radial velocity follow-up observations of 28 M and K stars with candidate astrometric substellar companions, which led to the confirmation of two systems, Gaia-4b and Gaia-5b, and the refutation of 21 systems as stellar binaries. Gaia-4b is a massive planet ($M = 11.8 \pm 0.7 \:\mathrm{M_J}$) in a $P = 571.3 \pm 1.4\:\mathrm{day}$ orbit with a projected semi-major axis $a_0=0.312 \pm 0.040\:\mathrm{mas}$ orbiting a $0.644 \pm 0.02 \:\mathrm{M_\odot}$ star. Gaia-5b is a brown dwarf ($M = 20.9 \pm 0.5\:\mathrm{M_J}$) in a $P = 358.58 \pm 0.19\:\mathrm{days}$ eccentric $e=0.6412 \pm 0.0027$ orbit with a projected angular semi-major axis of $a_0 = 0.947 \pm 0.038\:\mathrm{mas}$ around a $0.34 \pm 0.03 \mathrm{M_\odot}$ star. Gaia-4b is one of the first exoplanets discovered via the astrometric technique, and is one of the most massive planets known to orbit a low-mass star., Comment: Submitted to AAS journals. 26 pages, 12 figures, 4 tables

Published

2024

3. The NEID Earth Twin Survey. I. Confirmation of a 31-day planet orbiting HD 86728

Author

Gupta, Arvind F., Luhn, Jacob K., Wright, Jason T., Mahadevan, Suvrath, Robertson, Paul, Krolikowski, Daniel M., Ford, Eric B., Cañas, Caleb I., Halverson, Samuel, Lin, Andrea S. J., Kanodia, Shubham, Fitzmaurice, Evan, Gilbertson, Christian, Bender, Chad F., Blake, Cullen H., Dong, Jiayin, Giovinazzi, Mark R., Logsdon, Sarah E., Monson, Andrew, Ninan, Joe P., Rajagopal, Jayadev, Roy, Arpita, Schwab, Christian, and Stefánsson, Guðmundur

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

With close to three years of observations in hand, the NEID Earth Twin Survey (NETS) is starting to unearth new astrophysical signals for a curated sample of bright, radial velocity (RV)-quiet stars. We present the discovery of the first NETS exoplanet, HD 86728 b, a $m_p\sin i = 9.16^{+0.55}_{-0.56}\ \rm{M}_\oplus$ planet on a circular, $P=31.1503^{+0.0062}_{-0.0066}$ d orbit, thereby confirming a candidate signal identified by Hirsch et al. (2021). We confirm the planetary origin of the detected signal, which has a semi-amplitude of just $K=1.91^{+0.11}_{-0.12}$ m s$^{-1}$, via careful analysis of the NEID RVs and spectral activity indicators, and we constrain the mass and orbit via fits to NEID and archival RV measurements. The host star is intrinsically quiet at the $\sim1$ m s$^{-1}$ level, with the majority of this variability likely stemming from short-timescale granulation. HD 86728 b is among the small fraction of exoplanets with similar masses and periods that have no known planetary siblings., Comment: Submitted to AAS Journals. 18 pages, 10 figures, 3 tables, 1 appendix

Published

2024

4. Searching for GEMS: TOI-5688 A b, a low-density giant orbiting a high-metallicity early M-dwarf

Author

Reji, Varghese, Kanodia, Shubham, Ninan, Joe, Cañas, Caleb I., Libby-Roberts, Jessica, Lin, Andrea S. J., Gupta, Arvind F, Sewaby, Tera N., Larsen, Alexander, Kobulnicky, Henry A., Choi, Philip I., Evans, Nez, Santomenna, Sage, Winnick, Isabelle, Yu, Larry, Alvarado-Montes, Jaime A., Bender, Chad, Bernabò, Lia Marta, Blake, Cullen H., Cochran, William D., Diddams, Scott A., Halverson, Samuel, Han, Te, Hearty, Fred, Logsdon, Sarah E., Mahadevan, Suvrath, Monson, Andrew, McElwain, Michael, Robertson, Paul, Ojha, Devendra, Roy, Arpita, Schwab, Christian, Stefansson, Gudmundur, and Wright, Jason

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery of a low-density planet transiting TOI-5688 A b, a high-metallicity M2V star. This planet was discovered as part of the search for transiting giant planets ($R \gtrsim8$ M$_\oplus$) through the Searching for GEMS (Giant Exoplanets around M-dwarf Stars) survey. The planet TOI-5688 A b was discovered with the Transiting Exoplanet Survey Satellite (TESS), and characterized with ground-based transits from Red Buttes Observatory (RBO), the Table Mountain Observatory of Pomona College, and radial velocity (RV) measurements with the Habitable-Zone Planet Finder (HPF) on the 10 m Hobby Eberly Telescope (HET) and NEID on the WIYN 3.5 m telescope. From the joint fit of transit and RV data, the mass of the planet is $124\pm24$ M$_\oplus$ and the radius is $10.4\pm0.7$ R$_\oplus$. This planet has a density of $0.61^{+0.20}_{-0.15}$ g/cm${}^3$, and is on a $\sim2.95$ day orbit around its host star. The spectroscopic and photometric analysis of the host star TOI-5688 A shows that it is a high metallicity ([Fe/H] $ = 0.47\pm0.16$ dex) M2V star, favoring the core-accretion formation pathway as the likely formation scenario for this planet. In this paper, we analyze potential mechanisms of planet formation in the context of the formation of TOI-5688 A b. Additionally, observations with Gaia suggest the presence of a wide-separation binary companion, TOI-5688 B, which has a projected separation of $\sim5"$ (1110 AU) and is an M4V. This makes TOI-5688 A b part of a growing number of GEMS in wide-separation binary systems., Comment: 20 pages, 7 figures, Submitted to AJ, Comments are welcome

Published

2024

5. Earths within Reach: Evaluation of Strategies for Mitigating Solar Variability using 3.5 years of NEID Sun-as-a-Star Observations

Author

Ford, Eric B., Bender, Chad F., Blake, Cullen H., Gupta, Arvind F., Kanodia, Shubham, Lin, Andrea S. J., Logsdon, Sarah E., Luhn, Jacob K., Mahadevan, Suvrath, Palumbo III, Michael L., Terrien, Ryan C., Wright, Jason T., Zhao, Jinglin, Halverson, Samuel, Hunting, Emily, Robertson, Paul, Roy, Arpita, and Stefansson, Gudmundur

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present the results of Sun-as-a-star observations by the NEID Solar Telescope at WIYN Observatory, spanning January 1, 2021 through June 30, 2024. We identify 117,060 observations which are unlikely to be significantly affected by weather, hardware or major calibration issues. We describe several high-level data products being made available to the community to aid in the interpretation and inter comparisons of NEID solar observations. Solar observations demonstrate excellent performance of NEID, including radial velocity (RV) accuracy and long-term stability of better than $\simeq 0.37$ m s$^{-1}$ over $\simeq 3.5$ years, even though NEID was not originally designed or optimized for daytime observations of the Sun. Currently, intrinsic stellar variability is the primary barrier to detecting Earth-analog planets for most nearby, Sun-like stars. We present a comparison of the effectiveness of several methods proposed to mitigate the effects of solar variability on the Sun's estimated RV. We find that the Scalpels algorithm performs particularly well and substantially reduces the RMS RV of solar spectra from over 2 m s$^{-1}$ to 0.277 m s$^{-1}$. Even when training on a subset of days with NEID solar observations and testing on a held-out sample, the RMS of cleaned RV is 0.34-0.42 m s$^{-1}$. This is significantly better than previous attempts at removing solar variability and suggests that the current generation of EPRV instruments are technically capable of detecting Earth-mass planets orbiting a solar twin if provided with sufficient observing time allocations ($\sim 10^3$ nights of observations)., Comment: 25 pages, 14 figures. Submitted to AAS Journals. Data release archived at https://zenodo.org/doi/10.5281/zenodo.13363761

Published

2024

6. Single-Star Warm-Jupiter Systems Tend to Be Aligned, Even Around Hot Stellar Hosts: No $T_{\rm eff}-\lambda$ Dependency

Author

Wang, Xian-Yu, Rice, Malena, Wang, Songhu, Kanodia, Shubham, Dai, Fei, Logsdon, Sarah E., Schweiker, Heidi, Teske, Johanna K., Butler, R. Paul, Crane, Jeffrey D., Shectman, Stephen A., Quinn, Samuel N., Kostov, Veselin B., Osborn, Hugh P., Goeke, Robert F., Eastman, Jason D., Shporer, Avi, Rapetti, David, Collins, Karen A., Watkins, Cristilyn, Relles, Howard M., Ricker, George R., Seager, Sara, Winn, Joshua N., and Jenkins, Jon M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The stellar obliquity distribution of warm-Jupiter systems is crucial for constraining the dynamical history of Jovian exoplanets, as the warm Jupiters' tidal detachment likely preserves their primordial obliquity. However, the sample size of warm-Jupiter systems with measured stellar obliquities has historically been limited compared to that of hot Jupiters, particularly in hot-star systems. In this work, we present newly obtained sky-projected stellar obliquity measurements for warm-Jupiter systems, TOI-559, TOI-2025, TOI-2031, TOI-2485, TOI-2524, and TOI-3972, derived from the Rossiter-McLaughlin effect, and show that all six systems display alignment with a median measurement uncertainty of 13 degrees. Combining these new measurements with the set of previously reported stellar obliquity measurements, our analysis reveals that single-star warm-Jupiter systems tend to be aligned, even around hot stellar hosts. This alignment exhibits a 3.4-$\sigma$ deviation from the $T_{\rm eff}-\lambda$ dependency observed in hot-Jupiter systems, where planets around cool stars tend to be aligned, while those orbiting hot stars show considerable misalignment. The current distribution of spin-orbit measurements for Jovian exoplanets indicates that misalignments are neither universal nor primordial phenomena affecting all types of planets. The absence of misalignments in single-star warm-Jupiter systems further implies that many hot Jupiters, by contrast, have experienced a dynamically violent history., Comment: 18 pages, 2 figures, accepted for publication in ApJL

Published

2024

7. A hot-Jupiter progenitor on a super-eccentric retrograde orbit

Author

Gupta, Arvind F., Millholland, Sarah C., Im, Haedam, Dong, Jiayin, Jackson, Jonathan M., Carleo, Ilaria, Libby-Roberts, Jessica, Delamer, Megan, Giovinazzi, Mark R., Lin, Andrea S. J., Kanodia, Shubham, Wang, Xian-Yu, Stassun, Keivan, Masseron, Thomas, Dragomir, Diana, Mahadevan, Suvrath, Wright, Jason, Alvarado-Montes, Jaime A., Bender, Chad, Blake, Cullen H., Caldwell, Douglas, Cañas, Caleb I., Cochran, William D., Dalba, Paul, Everett, Mark E., Fernandez, Pipa, Golub, Eli, Guillet, Bruno, Halverson, Samuel, Hebb, Leslie, Higuera, Jesus, Huang, Chelsea X., Klusmeyer, Jessica, Knight, Rachel, Leroux, Liouba, Logsdon, Sarah E., Loose, Margaret, McElwain, Michael W., Monson, Andrew, Ninan, Joe P., Nowak, Grzegorz, Palle, Enric, Patel, Yatrik, Pepper, Joshua, Primm, Michael, Rajagopal, Jayadev, Robertson, Paul, Roy, Arpita, Schneider, Donald P., Schwab, Christian, Schweiker, Heidi, Sgro, Lauren, Shimizu, Masao, Simard, Georges, Stefánsson, Guðmundur, Stevens, Daniel J., Villanueva, Steven, Wisniewski, John, Will, Stefan, and Ziegler, Carl

Published

2024

8. TESS Spots a Super-Puff: The Remarkably Low Density of TOI-1420b

Author

Yoshida, Stephanie, Vissapragada, Shreyas, Latham, David W., Bieryla, Allyson, Thorngren, Daniel P., Eastman, Jason D., López-Morales, Mercedes, Barkaoui, Khalid, Beichmam, Charles, Berlind, Perry, Buchave, Lars A., Calkins, Michael L., Ciardi, David R., Collins, Karen A., Cosentino, Rosario, Crossfield, Ian J. M., Dai, Fei, DiTomasso, Victoria, Dowling, Nicholas, Esquerdo, Gilbert A., Forés-Toribio, Raquel, Ghedina, Adriano, Goliguzova, Maria V., Golub, Eli, Gonzales, Erica J., Horta, Ferran Grau, Higuera, Jesus, Hoch, Nora, Horne, Keith, Howell, Steve B., Jenkins, Jon M., Klusmeyer, Jessica, Laloum, Didier, Lissauer, Jack J., Logsdon, Sarah E., Malavolta, Luca, Matson, Rachel A., Matthews, Elisabeth C., McLeod, Kim K., Medina, Jennifer V., Muñoz, Jose A., Osborn, Hugh P., Safonov, Boris, Schlieder, Joshua, Schmidt, Michael, Schweiker, Heidi, Seager, Sara, Sozzetti, Alessandro, Srdoc, Gregor, Stefánsson, Guđmundur, Strakhov, Ivan A., Striegel, Stephanie, Villaseñor, Joel, and Winn, Joshua N.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery of TOI-1420b, an exceptionally low-density ($\rho = 0.08\pm0.02$ g cm$^{-3}$) transiting planet in a $P = 6.96$ day orbit around a late G dwarf star. Using transit observations from TESS, LCOGT, OPM, Whitin, Wendelstein, OAUV, Ca l'Ou, and KeplerCam along with radial velocity observations from HARPS-N and NEID, we find that the planet has a radius of $R_p$ = 11.9 $\pm$ 0.3 $R_\Earth$ and a mass of $M_p$ = 25.1 $\pm$ 3.8 $M_\Earth$. TOI-1420b is the largest-known planet with a mass less than $50M_\Earth$, indicating that it contains a sizeable envelope of hydrogen and helium. We determine TOI-1420b's envelope mass fraction to be $f_{env} = 82^{+7}_{-6}\%$, suggesting that runaway gas accretion occurred when its core was at most $4-5\times$ the mass of the Earth. TOI-1420b is similar to the planet WASP-107b in mass, radius, density, and orbital period, so a comparison of these two systems may help reveal the origins of close-in low-density planets. With an atmospheric scale height of 1950 km, a transmission spectroscopy metric of 580, and a predicted Rossiter-McLaughlin amplitude of about $17$ m s$^{-1}$, TOI-1420b is an excellent target for future atmospheric and dynamical characterization.

Published

2023

9. The Extreme Stellar-Signals Project III. Combining Solar Data from HARPS, HARPS-N, EXPRES, and NEID

Author

Zhao, Lily L., Dumusque, Xavier, Ford, Eric B., Llama, Joe, Mortier, Annelies, Bedell, Megan, Moulla, Khaled Al, Bender, Chad F., Blake, Cullen H., Brewer, John M., Cameron, Andrew Collier, Cosentino, Rosario, Figueira, Pedro, Fischer, Debra A., Ghedina, Adriano, Gonzalez, Manuel, Halverson, Samuel, Kanodia, Shubham, Latham, David W., Lin, Andrea S. J., Curto, Gaspare Lo, Lodi, Marcello, Logsdon, Sarah E., Lovis, Christophe, Mahadevan, Suvrath, Monson, Andrew, Ninan, Joe P., Pepe, Francesco, Roettenbacher, Rachael M., Roy, Arpita, Santos, Nuno C., Schwab, Christian, Stefánsson, Guðmundur, Szymkowiak, Andrew E., Terrien, Ryan C., Udry, Stephane, Weiss, Sam A., Wildi, François, Wildi, Thibault, and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present an analysis of Sun-as-a-star observations from four different high-resolution, stabilized spectrographs -- HARPS, HARPS-N, EXPRES, and NEID. With simultaneous observations of the Sun from four different instruments, we are able to gain insight into the radial velocity precision and accuracy delivered by each of these instruments and isolate instrumental systematics that differ from true astrophysical signals. With solar observations, we can completely characterize the expected Doppler shift contributed by orbiting Solar System bodies and remove them. This results in a data set with measured velocity variations that purely trace flows on the solar surface. Direct comparisons of the radial velocities measured by each instrument show remarkable agreement with residual intra-day scatter of only 15-30 cm/s. This shows that current ultra-stabilized instruments have broken through to a new level of measurement precision that reveals stellar variability with high fidelity and detail. We end by discussing how radial velocities from different instruments can be combined to provide powerful leverage for testing techniques to mitigate stellar signals., Comment: 17 pages, 9 figures, accepted for publication

Published

2023

10. Stable fiber-illumination for extremely precise radial velocities with NEID

Author

Kanodia, Shubham, Lin, Andrea S. J., Lubar, Emily, Halverson, Samuel, Mahadevan, Suvrath, Bender, Chad F., Logsdon, Sarah E., Ramsey, Lawrence W., Ninan, Joe P., Stefansson, Gudmundur, Monson, Andrew, Schwab, Christian, Roy, Arpita, Paredes, Leonardo A., Golub, Eli, Higuera, Jesus, Klusmeyer, Jessica, McBride, William, Blake, Cullen, Diddams, Scott A., Grise, Fabien, Gupta, Arvind F., Hearty, Fred, McElwain, Michael W., Rajagopal, Jayadev, Robertson, Paul, and Terrien, Ryan

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

NEID is a high-resolution red-optical precision radial velocity (RV) spectrograph recently commissioned at the WIYN 3.5 m telescope at Kitt Peak National Observatory, Arizona, USA. NEID has an extremely stable environmental control system, and spans a wavelength range of 380 to 930 nm with two observing modes: a High Resolution (HR) mode at R $\sim$ 112,000 for maximum RV precision, and a High Efficiency (HE) mode at R $\sim$ 72,000 for faint targets. In this manuscript we present a detailed description of the components of NEID's optical fiber feed, which include the instrument, exposure meter, calibration system, and telescope fibers. Many parts of the optical fiber feed can lead to uncalibratable RV errors, which cannot be corrected for using a stable wavelength reference source. We show how these errors directly cascade down to performance requirements on the fiber feed and the scrambling system. We detail the design, assembly, and testing of each component. Designed and built from the bottom-up with a single-visit instrument precision requirement of 27 $\textrm{cm~s}^{-1}$, close attention was paid to the error contribution from each NEID subsystem. Finally, we include the lab and on-sky tests performed during instrument commissioning to test the illumination stability, and discuss the path to achieving the instrumental stability required to search for a true Earth twin around a Solar-type star., Comment: The Astronomical Journal, Volume 166, Number 3, 2023

Published

2023

11. TOI-1859b: A 64-Day Warm Jupiter on an Eccentric and Misaligned Orbit

Author

Dong, Jiayin, Wang, Songhu, Rice, Malena, Zhou, George, Huang, Chelsea X., Dawson, Rebekah I., Stefánsson, Gudmundur K., Halverson, Samuel, Kanodia, Shubham, Mahadevan, Suvrath, McElwain, Michael W., Alvarado-Montes, Jaime A., Ninan, Joe P., Robertson, Paul, Roy, Arpita, Schwab, Christian, Logsdon, Sarah E., Terrien, Ryan C., Collins, Karen A., Srdoc, Gregor, Sefako, Ramotholo, Laloum, Didier, Latham, David W., Bieryla, Allyson, Dalba, Paul A., Dragomir, Diana, Villanueva Jr., Steven, Howell, Steve B., Ricker, George R., Seager, S., Winn, Joshua N., Jenkins, Jon M., Shporer, Avi, and Rapetti, David

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Warm Jupiters are close-in giant planets with relatively large planet-star separations (i.e., $10< a/R_\star <100$). Given their weak tidal interactions with their host stars, measurements of stellar obliquity may be used to probe the initial obliquity distribution and dynamical history for close-in gas giants. Using spectroscopic observations, we confirm the planetary nature of TOI-1859b and determine the stellar obliquity of TOI-1859 to be $\lambda = 38.9^{+2.8}_{-2.7}\deg$ relative to its planetary companion using the Rossiter-McLaughlin effect. TOI-1859b is a 64-day warm Jupiter orbiting around a late-F dwarf and has an orbital eccentricity of $0.57^{+0.12}_{-0.16}$, inferred purely from transit light curves. The eccentric and misaligned orbit of TOI-1859b is likely an outcome of dynamical interactions, such as planet-planet scattering and planet-disk resonance crossing., Comment: 15 pages, 7 figures, 1 table; accepted to ApJL

Published

2023

12. The unusual M-dwarf Warm Jupiter TOI-1899~b: Refinement of orbital and planetary parameters

Author

Lin, Andrea S. J., Libby-Roberts, Jessica E., Alvarado-Montes, Jaime A., Cañas, Caleb I., Kanodia, Shubham, Han, Te, Hebb, Leslie, Jensen, Eric L. N., Mahadevan, Suvrath, Powers, Luke C., Swaby, Tera N., Wisniewski, John, Beard, Corey, Bender, Chad F., Blake, Cullen H., Cochran, William D., Diddams, Scott A., Frazier, Robert C., Fredrick, Connor, Gully-Santiago, Michael, Halverson, Samuel, Logsdon, Sarah E., McElwain, Michael W., Morley, Caroline, Ninan, Joe P., Rajagopal, Jayadev, Ramsey, Lawrence W., Robertson, Paul, Roy, Arpita, Schwab, Christian, Stefánsson, Guðmundur, Stevens, Daniel J., Terrien, Ryan C., and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

TOI-1899 b is a rare exoplanet, a temperate Warm Jupiter orbiting an M-dwarf, first discovered by Ca\~nas et al. (2020) from a TESS single-transit event. Using new radial velocities (RVs) from the precision RV spectrographs HPF and NEID, along with additional TESS photometry and ground-based transit follow-up, we are able to derive a much more precise orbital period of $P = 29.090312_{-0.000035}^{+0.000036}$ d, along with a radius of $R_p = 0.99 \pm 0.03~R_J$. We have also improved the constraints on planet mass, $M_p = 0.67 \pm 0.04~M_J$, and eccentricity, which is consistent with a circular orbit at 2$\sigma$ ($e = 0.044_{-0.027}^{+0.029}$). TOI-1899 b occupies a unique region of parameter space as the coolest known ($T_{eq} \approx$ 380 K) Jovian-sized transiting planet around an M-dwarf; we show that it has great potential to provide clues regarding the formation and migration mechanisms of these rare gas giants through transmission spectroscopy with JWST as well as studies of tidal evolution., Comment: 28 pages, 15 figures, 3 tables, accepted to AJ

Published

2023

13. The TESS Grand Unified Hot Jupiter Survey. II. Twenty New Giant Planets

Author

Yee, Samuel W., Winn, Joshua N., Hartman, Joel D., Bouma, Luke G., Zhou, George, Quinn, Samuel N., Latham, David W., Bieryla, Allyson, Rodriguez, Joseph E., Collins, Karen A., Alfaro, Owen, Barkaoui, Khalid, Beard, Corey, Belinski, Alexander A., Benkhaldoun, Zouhair, Benni, Paul, Bernacki, Krzysztof, Boyle, Andrew W., Butler, R. Paul, Caldwell, Douglas A., Chontos, Ashley, Christiansen, Jessie L., Ciardi, David R., Collins, Kevin I., Conti, Dennis M., Crane, Jeffrey D., Daylan, Tansu, Dressing, Courtney D., Eastman, Jason D., Essack, Zahra, Evans, Phil, Everett, Mark E., Fajardo-Acosta, Sergio, Forés-Toribio, Raquel, Furlan, Elise, Ghachoui, Mourad, Gillon, Michaël, Hellier, Coel, Helm, Ian, Howard, Andrew W., Howell, Steve B., Isaacson, Howard, Jehin, Emmanuel, Jenkins, Jon M., Jensen, Eric L. N., Kielkopf, John F., Laloum, Didier, Leonhardes-Barboza, Naunet, Logsdon, Sarah E., Lubin, Jack, Lund, Michael B., MacDougall, Mason G., Mann, Andrew W., Maslennikova, Natalia A., Massey, Bob, McLeod, Kim K., Muñoz, Jose A., Newman, Patrick, Orlov, Valeri, Plavchan, Peter, Popowicz, Adam, Pozuelos, Francisco J., Pritchard, Tyler A., Radford, Don J., Reefe, Michael, Ricker, George R., Rudat, Alexander, Safonov, Boris S., Schwarz, Richard P., Schweiker, Heidi, Scott, Nicholas J., Seager, S., Shectman, Stephen A., Stockdale, Chris, Tan, Thiam-Guan, Teske, Johanna K., Thomas, Neil B., Timmermans, Mathilde, Vanderspek, Roland, Vermilion, David, Watanabe, David, Weiss, Lauren M., West, Richard G., Van Zandt, Judah, Zejmo, Michal, and Ziegler, Carl

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

NASA's Transiting Exoplanet Survey Satellite (TESS) mission promises to improve our understanding of hot Jupiters by providing an all-sky, magnitude-limited sample of transiting hot Jupiters suitable for population studies. Assembling such a sample requires confirming hundreds of planet candidates with additional follow-up observations. Here, we present twenty hot Jupiters that were detected using TESS data and confirmed to be planets through photometric, spectroscopic, and imaging observations coordinated by the TESS Follow-up Observing Program (TFOP). These twenty planets have orbital periods shorter than 7 days and orbit relatively bright FGK stars ($10.9 < G < 13.0$). Most of the planets are comparable in mass to Jupiter, although there are four planets with masses less than that of Saturn. TOI-3976 b, the longest period planet in our sample ($P = 6.6$ days), may be on a moderately eccentric orbit ($e = 0.18\pm0.06$), while observations of the other targets are consistent with them being on circular orbits. We measured the projected stellar obliquity of TOI-1937A b, a hot Jupiter on a 22.4 hour orbit with the Rossiter-McLaughlin effect, finding the planet's orbit to be well-aligned with the stellar spin axis ($|\lambda| = 4.0\pm3.5^\circ$). We also investigated the possibility that TOI-1937 is a member of the NGC 2516 open cluster, but ultimately found the evidence for cluster membership to be ambiguous. These objects are part of a larger effort to build a complete sample of hot Jupiters to be used for future demographic and detailed characterization work., Comment: 67 pages, 11 tables, 13 figures, 2 figure sets. Resubmitted to ApJS after revisions

Published

2022

14. Real-time exposure control and instrument operation with the NEID spectrograph GUI

Author

Gupta, Arvind F., Bender, Chad F., Ninan, Joe P., Logsdon, Sarah E., Kanodia, Shubham, Golub, Eli, Higuera, Jesus, Klusmeyer, Jessica, Halverson, Samuel, Mahadevan, Suvrath, McElwain, Michael W., Schwab, Christian, Stefansson, Gudmundur, Robertson, Paul, Roy, Arpita, Terrien, Ryan C., and Wright, Jason T.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The NEID spectrograph on the WIYN 3.5-m telescope at Kitt Peak has completed its first full year of science operations and is reliably delivering sub-m/s precision radial velocity measurements. The NEID instrument control system uses the TIMS package (Bender et al. 2016), which is a client-server software system built around the twisted python software stack. During science observations, interaction with the NEID spectrograph is handled through a pair of graphical user interfaces (GUIs), written in PyQT, which wrap the underlying instrument control software and provide straightforward and reliable access to the instrument. Here, we detail the design of these interfaces and present an overview of their use for NEID operations. Observers can use the NEID GUIs to set the exposure time, signal-to-noise ratio (SNR) threshold, and other relevant parameters for observations, configure the calibration bench and observing mode, track or edit observation metadata, and monitor the current state of the instrument. These GUIs facilitate automatic spectrograph configuration and target ingestion from the nightly observing queue, which improves operational efficiency and consistency across epochs. By interfacing with the NEID exposure meter, the GUIs also allow observers to monitor the progress of individual exposures and trigger the shutter on user-defined SNR thresholds. In addition, inset plots of the instantaneous and cumulative exposure meter counts as each observation progresses allow for rapid diagnosis of changing observing conditions as well as guiding failure and other emergent issues., Comment: Published in Proceedings of the SPIE Astronomical Telescopes + Instrumentation, 2022; 12 pages

Published

2022

15. Detection of p-mode Oscillations in HD 35833 with NEID and TESS

Author

Gupta, Arvind F., Luhn, Jacob K., Wright, Jason T., Mahadevan, Suvrath, Ford, Eric B., Stefansson, Gudmundur, Bender, Chad F., Blake, Cullen H., Halverson, Samuel, Hearty, Fred R., Kanodia, Shubham, Logsdon, Sarah E., McElwain, Michael W., Ninan, Joe P., Robertson, Paul, Roy, Arpita, Schwab, Christian, and Terrien, Ryan C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the results of observations of p-mode oscillations in the G0 subgiant star HD 35833 in both radial velocities and photometry with NEID and TESS, respectively. We achieve separate, robust detections of the oscillation signal with both instruments (radial velocity amplitude $A_{\rm RV}=1.11\pm0.09$ m s$^{-1}$, photometric amplitude $A_{\rm phot}=6.42\pm0.60$ ppm, frequency of maximum power $\nu_{\rm max} = 595.71\pm17.28$ $\mu$Hz, and mode spacing $\Delta \nu = 36.65\pm0.96$ $\mu$Hz) as well as a non-detection in a TESS sector concurrent with the NEID observations. These data shed light on our ability to mitigate the correlated noise impact of oscillations with radial velocities alone, and on the robustness of commonly used asteroseismic scaling relations. The NEID data are used to validate models for the attenuation of oscillation signals for exposure times $t<\nu_{\rm max}^{-1}$, and we compare our results to predictions from theoretical scaling relations and find that the observed amplitudes are weaker than expected by $>4\sigma$, hinting at gaps in the underlying physical models., Comment: 19 Pages, 14 Figures, Appendix

Published

2022

16. GJ 3929: High Precision Photometric and Doppler Characterization of an Exo-Venus and its Hot, Mini-Neptune-mass Companion

Author

Beard, Corey, Robertson, Paul, Kanodia, Shubham, Lubin, Jack, Cañas, Caleb I., Gupta, Arvind F., Holcomb, Rae, Jones, Sinclaire, Libby-Roberts, Jessica E., Lin, Andrea S. J., Mahadevan, Suvrath, Stefánsson, Guðmundur, Bender, Chad F., Blake, Cullen H., Cochran, William D., Endl, Michael, Everett, Mark, Ford, Eric B., Fredrick, Connor, Halverson, Samuel, Hebb, Leslie, Li, Dan, Logsdon, Sarah E., Luhn, Jacob, McElwain, Michael W., Metcalf, Andrew J., Ninan, Joe P., Rajagopal, Jayadev, Roy, Arpita, Schutte, Maria, Schwab, Christian, Terrien, Ryan C., Wisniewski, John, and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We detail the follow up and characterization of a transiting exo-Venus identified by TESS, GJ 3929b, (TOI-2013b) and its non-transiting companion planet, GJ 3929c (TOI-2013c). GJ 3929b is an Earth-sized exoplanet in its star's Venus-zone (P$_{b}$ = 2.616272 $\pm$ 0.000005 days; S$_{b}$ = 17.3$^{+0.8}_{-0.7}$ S$_{\oplus}$) orbiting a nearby M dwarf. GJ 3929c is most likely a non-transiting sub-Neptune. Using the new, ultra-precise NEID spectrometer on the WIYN 3.5 m Telescope at Kitt Peak National Observatory, we are able to modify the mass constraints of planet b reported in previous works and consequently improve the significance of the mass measurement to almost 4$\sigma$ confidence (M$_{b}$ = 1.75 $\pm$ 0.45 M$_{\oplus}$). We further adjust the orbital period of planet c from its alias at 14.30 $\pm$ 0.03 days to the likely true period of 15.04 $\pm$ 0.03 days, and adjust its minimum mass to m$\sin i$ = 5.71 $\pm$ 0.92 M$_{\oplus}$. Using the diffuser-assisted ARCTIC imager on the ARC 3.5 m telescope at Apache Point Observatory, in addition to publicly available TESS and LCOGT photometry, we are able to constrain the radius of planet b to R$_{p}$ = 1.09 $\pm$ 0.04 R$_{\oplus}$. GJ 3929b is a top candidate for transmission spectroscopy in its size regime (TSM = 14 $\pm$ 4), and future atmospheric studies of GJ 3929b stand to shed light on the nature of small planets orbiting M dwarfs., Comment: Accepted for publication in ApJ. arXiv admin note: text overlap with arXiv:2204.09063

Published

2022

17. A Tendency Toward Alignment in Single-Star Warm Jupiter Systems

Author

Rice, Malena, Wang, Songhu, Wang, Xian-Yu, Stefansson, Gudmundur, Isaacson, Howard, Howard, Andrew W., Logsdon, Sarah E., Schweiker, Heidi, Dai, Fei, Brinkman, Casey, Giacalone, Steven, and Holcomb, Rae

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The distribution of spin-orbit angles for systems with wide-separation, tidally detached exoplanets offers a unique constraint on the prevalence of dynamically violent planetary evolution histories. Tidally detached planets provide a relatively unbiased view of the primordial stellar obliquity distribution, since they cannot tidally realign within the system lifetime. We present the third result from our Stellar Obliquities in Long-period Exoplanet Systems (SOLES) survey: a measurement of the Rossiter-McLaughlin effect across two transits of the tidally detached warm Jupiter TOI-1478 b with the WIYN/NEID and Keck/HIRES spectrographs, revealing a sky-projected spin-orbit angle $\lambda=6.2^{+5.9}_{-5.5}$ degrees. Combining this new measurement with the full set of archival obliquity measurements, including two previous constraints from the SOLES survey, we demonstrate that, in single-star systems, tidally detached warm Jupiters are preferentially more aligned than closer-orbiting hot Jupiters. This finding has two key implications: (1) planets in single-star systems tend to form within aligned protoplanetary disks, and (2) warm Jupiters form more quiescently than hot Jupiters, which, in single-star systems, are likely perturbed into a misaligned state through planet-planet interactions in the post-disk-dispersal phase. We also find that lower-mass Saturns span a wide range of spin-orbit angles, suggesting a prevalence of planet-planet scattering and/or secular mechanisms in these systems., Comment: Accepted for publication in AJ. 20 pages, 7 figures, 4 tables

Published

2022

18. TOI-3757 b: A low density gas giant orbiting a solar-metallicity M dwarf

Author

Kanodia, Shubham, Libby-Roberts, Jessica, Canas, Caleb I., Ninan, Joe P., Mahadevan, Suvrath, Stefansson, Gudmundur, Lin, Andrea S. J., Jones, Sinclaire, Monson, Andrew, Parker, Brock A., Kobulnicky, Henry A., Swaby, Tera N., Powers, Luke, Beard, Corey, Bender, Chad F., Blake, Cullen H., Cochran, William D., Dong, Jiayin, Diddams, Scott A., Fredrick, Connor, Gupta, Arvind F., Halverson, Samuel, Hearty, Fred, Logsdon, Sarah E., Metcalf, Andrew J., McElwain, Michael W., Morley, Caroline, Rajagopal, Jayadev, Ramsey, Lawrence W., Robertson, Paul, Roy, Arpita, Schwab, Christian, Terrien, Ryan C., Wisniewski, John, and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery of a new Jovian-sized planet, TOI-3757 b, the lowest density planet orbiting an M dwarf (M0V). It orbits a solar-metallicity M dwarf discovered using TESS photometry and confirmed with precise radial velocities (RV) from HPF and NEID. With a planetary radius of $12.0^{+0.4}_{-0.5}$ $R_{\oplus}$ and mass of $85.3^{+8.8}_{-8.7}$ $M_{\oplus}$, not only does this object add to the small sample of gas giants ($\sim 10$) around M dwarfs, but also, its low density ($\rho =$ $0.27^{+0.05}_{-0.04}$ $\textrm{g~cm}^{-3}$) provides an opportunity to test theories of planet formation. We present two hypotheses to explain its low density; first, we posit that the low metallicity of its stellar host ($\sim$ 0.3 dex lower than the median metallicity of M dwarfs hosting gas giants) could have played a role in the delayed formation of a solid core massive enough to initiate runaway accretion. Second, using the eccentricity estimate of $0.14 \pm 0.06$ we determine it is also plausible for tidal heating to at least partially be responsible for inflating the radius of TOI-3757b b. The low density and large scale height of TOI-3757 b makes it an excellent target for transmission spectroscopy studies of atmospheric escape and composition (TSM $\sim$ 190). We use HPF to perform transmission spectroscopy of TOI-3757 b using the helium 10830 \AA~ line. Doing this, we place an upper limit of 6.9 \% (with 90\% confidence) on the maximum depth of the absorption from the metastable transition of He at $\sim$ 10830 \AA, which can help constraint the atmospheric mass loss rate in this energy limited regime., Comment: AJ. arXiv admin note: text overlap with arXiv:2107.13670

Published

2022

19. TOI-3714 b and TOI-3629 b: Two gas giants transiting M dwarfs confirmed with HPF and NEID

Author

Cañas, Caleb I., Kanodia, Shubham, Bender, Chad F., Mahadevan, Suvrath, Stefánsson, Guðmundur, Cochran, William D., Lin, Andrea S. J., Hwang, Hsiang-Chih, Powers, Luke, Monson, Andrew, Green, Elizabeth M., Parker, Brock A., Swaby, Tera N., Kobulnicky, Henry A., Wisniewski, John, Gupta, Arvind F., Everett, Mark E., Jones, Sinclaire, Anjakos, Benjamin, Beard, Corey, Blake, Cullen H., Diddams, Scott A., Dong, Zehao, Fredrick, Connor, Hakemiamjad, Elnaz, Hebb, Leslie, Libby-Roberts, Jessica E., Logsdon, Sarah E., McElwain, Michael W., Metcalf, Andrew J., Ninan, Joe P., Rajagopal, Jayadev, Ramsey, Lawrence W., Robertson, Paul, Roy, Arpita, Ruhle, Jacob, Schwab, Christian, Terrien, Ryan C., and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We confirm the planetary nature of two gas giants discovered by TESS to transit M dwarfs. TOI-3714 ($V=15.24,~J=11.74$) is an M2 dwarf hosting a hot Jupiter ($M_p=0.70 \pm 0.03~\mathrm{M_J}$ and $R_p=1.01 \pm 0.03~\mathrm{R_J}$) on an orbital period of $2.154849 \pm 0.000001$ days with a resolved white dwarf companion. TOI-3629 ($V=14.63,~J=11.42$) is an M1 dwarf hosting a hot Jupiter ($M_p=0.26 \pm 0.02~\mathrm{M_J}$ and $R_p=0.74 \pm 0.02~\mathrm{R_J}$) on an orbital period of $3.936551_{-0.000006}^{+0.000005}$ days. We characterize each transiting companion using a combination of ground-based and space-based photometry, speckle imaging, and high-precision velocimetry from the Habitable-zone Planet Finder and the NEID spectrographs. With the discovery of these two systems, there are now nine M dwarfs known to host transiting hot Jupiters. Among this population, TOI-3714 b ($T_{eq}=750\pm20$ K and $\mathrm{TSM}=98\pm7$) and TOI-3629 b ($T_{eq}=690\pm20$ K and $\mathrm{TSM}=80\pm9$) are warm gas giants amenable to additional characterization with transmission spectroscopy to probe atmospheric chemistry and, for TOI-3714, obliquity measurements to probe formation scenarios., Comment: 39 pages, 13 figures, 4 tables. Accepted for publication in AJ

Published

2022

20. Observing the Sun as a star: Design and early results from the NEID solar feed

Author

Lin, Andrea S. J., Monson, Andrew, Mahadevan, Suvrath, Ninan, Joe P., Halverson, Samuel, Nitroy, Colin, Bender, Chad F., Logsdon, Sarah E., Kanodia, Shubham, Terrien, Ryan C., Roy, Arpita, Luhn, Jacob K., Gupta, Arvind F., Ford, Eric B., Hearty, Fred, Laher, Russ R., Hunting, Emily, McBride, William R., Rivera, Noah Isaac Salazar, Rajagopal, Jayadev, Wolf, Marsha J., Robertson, Paul, Wright, Jason T., Blake, Cullen H., Canas, Caleb I., Lubar, Emily, McElwain, Michael W., Ramsey, Lawrence W., Schwab, Christian, and Stefansson, Gudmundur

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Efforts with extreme-precision radial velocity (EPRV) instruments to detect small-amplitude planets are largely limited, on many timescales, by the effects of stellar variability and instrumental systematics. One avenue for investigating these effects is the use of small solar telescopes which direct disk-integrated sunlight to these EPRV instruments, observing the Sun at high cadence over months or years. We have designed and built a solar feed system to carry out "Sun-as-a-star" observations with NEID, a very high precision Doppler spectrometer recently commissioned at the WIYN 3.5m Telescope at Kitt Peak National Observatory. The NEID solar feed has been taking observations nearly every day since December 2020; data is publicly available at the NASA Exoplanet Science Institute (NExScI) NEID Solar Archive: \url{https://neid.ipac.caltech.edu/search_solar.php}. In this paper, we present the design of the NEID solar feed and explanations behind our design intent. We also present early radial velocity (RV) results which demonstrate NEID's RV stability on the Sun over 4 months of commissioning: 0.66~m/s RMS under good sky conditions and improving to 0.41~m/s RMS under best conditions., Comment: Accepted to AJ

Published

2021

21. The Warm Neptune GJ 3470b has a Polar Orbit

Author

Stefansson, Gudmundur, Mahadevan, Suvrath, Petrovich, Cristobal, Winn, Joshua N., Kanodia, Shubham, Millholland, Sarah C., Maney, Marissa, Cañas, Caleb I., Wisniewski, John, Robertson, Paul, Ninan, Joe P., Ford, Eric B., Bender, Chad F., Blake, Cullen H., Cegla, Heather, Cochran, William D., Diddams, Scott A., Dong, Jiayin, Endl, Michael, Fredrick, Connor, Halverson, Samuel, Hearty, Fred, Hebb, Leslie, Hirano, Teruyuki, Lin, Andrea S. J., Logsdon, Sarah E., Lubar, Emily, McElwain, Michael W., Metcalf, Andrew J., Monson, Andrew, Rajagopal, Jayadev, Ramsey, Lawrence W., Roy, Arpita, Schwab, Christian, Schweiker, Heidi, Terrien, Ryan C., and Wright, Jason T.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The warm Neptune GJ 3470b transits a nearby ($d=29$pc) bright slowly rotating M1.5-dwarf star. Using spectroscopic observations during two transits with the newly commissioned NEID spectrometer on the WIYN 3.5m Telescope at Kitt Peak Observatory, we model the classical Rossiter-Mclaughlin effect yielding a sky-projected obliquity of $\lambda=98_{-12}^{+15\:\circ}$ and a $v \sin i = 0.85_{-0.33}^{+0.27}$km/s. Leveraging information about the rotation period and size of the host star, our analysis yields a true obliquity of $\psi=95_{-8}^{+9\:\circ}$, revealing that GJ 3470b is on a polar orbit. Using radial velocities from HIRES, HARPS and the Habitable-zone Planet Finder, we show that the data are compatible with a long-term RV slope of $\dot{\gamma} = -0.0022 \pm 0.0011$m/s/day over a baseline of 12.9 years. If the RV slope is due to acceleration from another companion in the system, we show that such a companion is capable of explaining the polar and mildly eccentric orbit of GJ 3470b using two different secular excitation models. The existence of an outer companion can be further constrained with additional RV observations, Gaia astrometry, and future high-contrast imaging observations. Lastly, we show that tidal heating from GJ 3470b's mild eccentricity has most likely inflated the radius of GJ 3470b by a factor of $\sim$1.5-1.7, which could help account for its evaporating atmosphere., Comment: 21 pages, 7 figures. Accepted in ApJL

Published

2021

22. The Aligned Orbit of WASP-148b, the Only Known Hot Jupiter with a Nearby Warm Jupiter Companion, from NEID and HIRES

Author

Wang, Xian-Yu, Rice, Malena, Wang, Songhu, Pu, Bonan, Stefánsson, Guðmundur, Mahadevan, Suvrath, Radzom, Brandon, Giacalone, Steven, Wu, Zhen-Yu, Esposito, Thomas M., Dalba, Paul A., Avsar, Arin, Holden, Bradford, Skiff, Brian, Polakis, Tom, Voeller, Kevin, Logsdon, Sarah E., Klusmeyer, Jessica, Schweiker, Heidi, Wu, Dong-Hong, Beard, Corey, Dai, Fei, Lubin, Jack, Weiss, Lauren M., Bender, Chad F., Blake, Cullen H., Dressing, Courtney D., Halverson, Samuel, Hearty, Fred, Howard, Andrew W., Huber, Daniel, Isaacson, Howard, Jackman, James A. G., Llama, Joe, McElwain, Michael W., Rajagopal, Jayadev, Roy, Arpita, Robertson, Paul, Schwab, Christian, Shkolnik, Evgenya L., Wright, Jason, and Laughlin, Gregory

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present spectroscopic measurements of the Rossiter-McLaughlin effect for WASP-148b, the only known hot Jupiter with a nearby warm-Jupiter companion, from the WIYN/NEID and Keck/HIRES instruments. This is one of the first scientific results reported from the newly commissioned NEID spectrograph, as well as the second obliquity constraint for a hot Jupiter system with a close-in companion, after WASP-47. WASP-148b is consistent with being in alignment with the sky-projected spin axis of the host star, with $\lambda=-8^{\circ}.2^{{+8^{\circ}.7}}_{-9^{\circ}.7}$. The low obliquity observed in the WASP-148 system is consistent with the orderly-alignment configuration of most compact multi-planet systems around cool stars with obliquity constraints, including our solar system, and may point to an early history for these well-organized systems in which migration and accretion occurred in isolation, with relatively little disturbance. By contrast, previous results have indicated that high-mass and hot stars appear to more commonly host a wide range of misaligned planets: not only single hot Jupiters, but also compact systems with multiple super-Earths. We suggest that, to account for the high rate of spin-orbit misalignments in both compact multi-planet and isolated-hot-Jupiter systems orbiting high-mass and hot stars, spin-orbit misalignments may be caused by distant giant planet perturbers, which are most common around these stellar types., Comment: 13 pages, 4 figures, accepted for publication in ApJL

Published

2021

23. Measuring and Replicating the 1-20 um Energy Distributions of the Coldest Brown Dwarfs: Rotating, Turbulent and Non-Adiabatic Atmospheres

Author

Leggett, S. K., Tremblin, Pascal, Phillips, Mark W., Dupuy, Trent J., Marley, Mark, Morley, Caroline, Schneider, Adam, Caselden, Dan, Guillaume, Colin, and Logsdon, Sarah E.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Cold, low-mass, field brown dwarfs are important for constraining the terminus of the stellar mass function, and also for optimizing atmospheric studies of exoplanets. In 2020 new model grids for such objects were made available: Sonora-Bobcat and ATMO 2020. Also, new candidate cold brown dwarfs were announced, and new spectroscopic observations at lambda ~4.8 um were published. In this paper we present new infrared photometry for some of the coldest brown dwarfs, and put the new data and models together to explore the properties of these objects. We reconfirm the importance of mixing in these atmospheres, which leads to CO and NH_3 abundances that differ by orders of magnitude from chemical equilibrium values. We also demonstrate that the new models retain the known factor >~3 discrepancy with observations at 2 <~ lambda um <~ 4, for brown dwarfs cooler than 600 K. We show that the entire 1 <~ lambda um <~ 20 energy distribution of six brown dwarfs with 260 <= T_eff K <= 475 can be well reproduced, for the first time, by model atmospheres which include dis-equilibrium chemistry as well as a photospheric temperature gradient which deviates from the standard radiative/convective equilibrium value. This change to the pressure-temperature profile is not unexpected for rotating and turbulent atmospheres which are subject to diabatic processes. A limited grid of modified-adiabat model colors is generated, and used to estimate temperatures and metallicities for the currently known Y dwarfs. A compilation of the photometric data used here is given in the Appendix., Comment: 40 pages which includes 16 Figures and 10 Tables. The Journal publication will include data behind the Figures for Figures 5, 8 and 9, and a machine readable version of Table 10

Published

2021

24. New Candidate Extreme T Subdwarfs from the Backyard Worlds: Planet 9 Citizen Science Project

Author

Meisner, Aaron M., Schneider, Adam C., Burgasser, Adam J., Marocco, Federico, Line, Michael R., Faherty, Jacqueline K., Kirkpatrick, J. Davy, Caselden, Dan, Kuchner, Marc J., Gelino, Christopher R., Gagne, Jonathan, Theissen, Christopher, Gerasimov, Roman, Aganze, Christian, Hsu, Chih-Chun, Wisniewski, John P., Casewell, Sarah L., Gagliuffi, Daniella C. Bardalez, Logsdon, Sarah E., Eisenhardt, Peter R. M., Allers, Katelyn, Debes, John H., Allen, Michaela B., Andersen, Nikolaj Stevnbak, Goodman, Sam, Gramaize, Leopold, Martin, David W., Sainio, Arttu, Cushing, Michael C., Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Schneider et al. (2020) presented the discovery of WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5, which appear to be the first examples of extreme T-type subdwarfs (esdTs; metallicity <= -1 dex, T_eff <= 1400 K). Here we present new discoveries and follow-up of three T-type subdwarf candidates, with an eye toward expanding the sample of such objects with very low metallicity and extraordinarily high kinematics, properties that suggest membership in the Galactic halo. Keck/NIRES near-infrared spectroscopy of WISEA J155349.96+693355.2, a fast-moving object discovered by the Backyard Worlds: Planet 9 citizen science project, confirms that it is a mid-T subdwarf. With H_W2 = 22.3 mag, WISEA J155349.96+693355.2 has the largest W2 reduced proper motion among all spectroscopically confirmed L and T subdwarfs, suggesting that it may be kinematically extreme. Nevertheless, our modeling of the WISEA J155349.96+693355.2 near-infrared spectrum indicates that its metallicity is only mildly subsolar. In analyzing the J155349.96+693355.2 spectrum, we present a new grid of low-temperature, low-metallicity model atmosphere spectra. We also present the discoveries of two new esdT candidates, CWISE J073844.52-664334.6 and CWISE J221706.28-145437.6, based on their large motions and colors similar to those of the two known esdT objects. Finding more esdT examples is a critical step toward mapping out the spectral sequence and observational properties of this newly identified population., Comment: accepted for publication in ApJ; models available at https://doi.org/10.7910/DVN/SJRXUO

Published

2021

25. Target Prioritization and Observing Strategies for the NEID Earth Twin Survey

Author

Gupta, Arvind F., Wright, Jason T., Robertson, Paul, Halverson, Samuel, Luhn, Jacob, Roy, Arpita, Mahadevan, Suvrath, Ford, Eric B ., Bender, Chad F., Blake, Cullen H., Hearty, Fred, Kanodia, Shubham, Logsdon, Sarah E., McElwain, Michael W., Monson, Andrew, Ninan, Joe P., Schwab, Christian, Stefansson, Gudmundur, and Terrien, Ryan C.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

NEID is a high-resolution optical spectrograph on the WIYN 3.5-m telescope at Kitt Peak National Observatory and will soon join the new generation of extreme precision radial velocity instruments in operation around the world. We plan to use the instrument to conduct the NEID Earth Twin Survey (NETS) over the course of the next 5 years, collecting hundreds of observations of some of the nearest and brightest stars in an effort to probe the regime of Earth-mass exoplanets. Even if we take advantage of the extreme instrumental precision conferred by NEID, it will remain difficult to disentangle the weak (~10 cm s$^{-1}$) signals induced by such low-mass, long-period exoplanets from stellar noise for all but the quietest host stars. In this work, we present a set of quantitative selection metrics which we use to identify an initial NETS target list consisting of stars conducive to the detection of exoplanets in the regime of interest. We also outline a set of observing strategies with which we aim to mitigate uncertainty contributions from intrinsic stellar variability and other sources of noise., Comment: 19 pages, 10 figures, 1 table

Published

2021

26. The Field Substellar Mass Function Based on the Full-sky 20-pc Census of 525 L, T, and Y Dwarfs

Author

Kirkpatrick, J. Davy, Gelino, Christopher R., Faherty, Jacqueline K., Meisner, Aaron M., Caselden, Dan, Schneider, Adam C., Marocco, Federico, Cayago, Alfred J., Smart, R. L., Eisenhardt, Peter R., Kuchner, Marc J., Wright, Edward L., Cushing, Michael C., Allers, Katelyn N., Gagliuffi, Daniella C. Bardalez, Burgasser, Adam J., Gagne, Jonathan, Logsdon, Sarah E., Martin, Emily C., Ingalls, James G., Lowrance, Patrick J., Abrahams, Ellianna S., Aganze, Christian, Gerasimov, Roman, Gonzales, Eileen C., Hsu, Chih-Chun, Kamraj, Nikita, Kiman, Rocio, Rees, Jon, Theissen, Christopher, Ammar, Kareem, Andersen, Nikolaj Stevnbak, Beaulieu, Paul, Colin, Guillaume, Elachi, Charles A., Goodman, Samuel J., Gramaize, Leopold, Hamlet, Leslie K., Hong, Justin, Jonkeren, Alexander, Khalil, Mohammed, Martin, David W., Pendrill, William, Pumphrey, Benjamin, Rothermich, Austin, Sainio, Arttu, Stenner, Andres, Tanner, Christopher, Thevenot, Melina, Voloshin, Nikita V., Walla, Jim, and Wedracki, Zbigniew

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present final Spitzer trigonometric parallaxes for 361 L, T, and Y dwarfs. We combine these with prior studies to build a list of 525 known L, T, and Y dwarfs within 20 pc of the Sun, 38 of which are presented here for the first time. Using published photometry and spectroscopy as well as our own follow-up, we present an array of color-magnitude and color-color diagrams to further characterize census members, and we provide polynomial fits to the bulk trends. Using these characterizations, we assign each object a $T_{\rm eff}$ value and judge sample completeness over bins of $T_{\rm eff}$ and spectral type. Except for types $\ge$ T8 and $T_{\rm eff} <$ 600K, our census is statistically complete to the 20-pc limit. We compare our measured space densities to simulated density distributions and find that the best fit is a power law ($dN/dM \propto M^{-\alpha}$) with $\alpha = 0.6{\pm}0.1$. We find that the evolutionary models of Saumon & Marley correctly predict the observed magnitude of the space density spike seen at 1200K $< T_{\rm eff} <$ 1350K, believed to be caused by an increase in the cooling timescale across the L/T transition. Defining the low-mass terminus using this sample requires a more statistically robust and complete sample of dwarfs $\ge$Y0.5 and with $T_{\rm eff} <$ 400K. We conclude that such frigid objects must exist in substantial numbers, despite the fact that few have so far been identified, and we discuss possible reasons why they have largely eluded detection., Comment: 101 pages, 31 figures, accepted for publication in the Astrophysical Journal Supplement Series

Published

2020

27. Estimating the Ultraviolet Emission of M dwarfs with Exoplanets from Ca II and H$\alpha$

Author

Melbourne, Katherine, Youngblood, Allison, France, Kevin, Froning, C. S., Pineda, J. Sebastian, Shkolnik, Evgenya L., Wilson, David J., Wood, Brian E., Basu, Sarbani, Roberge, Aki, Schlieder, Joshua E., Cauley, P. Wilson, Loyd, R. O. Parke, Newton, Elisabeth R., Schneider, Adam, Arulanantham, Nicole, Berta-Thompson, Zachory, Brown, Alexander, Buccino, Andrea P., Kempton, Eliza, Linsky, Jeffrey L., Logsdon, Sarah E., Mauas, Pablo, Pagano, Isabella, Peacock, Sarah, Redfield, Seth, Rugheimer, Sarah, Schneider, P. Christian, Teal, D. J., Tian, Feng, Tilipman, Dennis, and Vieytes, Mariela

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

M dwarf stars are excellent candidates around which to search for exoplanets, including temperate, Earth-sized planets. To evaluate the photochemistry of the planetary atmosphere, it is essential to characterize the UV spectral energy distribution of the planet's host star. This wavelength regime is important because molecules in the planetary atmosphere such as oxygen and ozone have highly wavelength dependent absorption cross sections that peak in the UV (900-3200 $\r{A}$). We seek to provide a broadly applicable method of estimating the UV emission of an M dwarf, without direct UV data, by identifying a relationship between non-contemporaneous optical and UV observations. Our work uses the largest sample of M dwarf star far- and near-UV observations yet assembled. We evaluate three commonly-observed optical chromospheric activity indices -- H$\alpha$ equivalent widths and log$_{10}$ L$_{H\alpha}$/L$_{bol}$, and the Mount Wilson Ca II H&K S and R$'_{HK}$ indices -- using optical spectra from the HARPS, UVES, and HIRES archives and new HIRES spectra. Archival and new Hubble Space Telescope COS and STIS spectra are used to measure line fluxes for the brightest chromospheric and transition region emission lines between 1200-2800 $\r{A}$. Our results show a correlation between UV emission line luminosity normalized to the stellar bolometric luminosity and Ca II R$'_{HK}$ with standard deviations of 0.31-0.61 dex (factors of $\sim$2-4) about the best-fit lines. We also find correlations between normalized UV line luminosity and H$\alpha$ log$_{10}$ L$_{H\alpha}$/L$_{bol}$ and the S index. These relationships allow one to estimate the average UV emission from M0 to M9 dwarfs when UV data are not available., Comment: 34 pages, 12 figures, 5 tables (one machine readable table available online). Accepted to AAS Journals

Published

2020

28. A Survey of 3 to 5.4 Micron Emission From Planetary Nebulae using SOFIA/FLITECAM

Author

Smith, Erin C., Logsdon, Sarah E., McLean, Ian S., Fletcher, Elizabeth, Vacca, William D., Becklin, E. E., Shenoy, Sachindev, Savage, Maureen, and Hamilton, Ryan T.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Here we present the results of an airborne 3-5.4$\mu$m spectroscopic study of three young, Carbon-rich planetary nebulae IC 5117, PNG 093.9-00.1, and BD $+$30 3639. These observations were made using the grism spectroscopy mode of the FLITECAM instrument during airborne science operations onboard NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA). The goal of this study is to characterize the 3.3 $\mu$m and 5.25 $\mu$m PAH dust emission in planetary nebulae and study the evolution of PAH features within evolved stars before their incorporation into new stellar systems in star-forming regions. Targets were selected from IRAS, KAO and ISO source lists, and were previously observed with FLITECAM on the 3-meter Shane telescope at Lick Observatory to allow direct comparison between the ground and airborne observations. We measure PAH emission equivalent width and central wavelength, classify the shape of the PAH emission, and determine the PAH/Aliphatic ratio for each target. The 3.3 $\mu$m PAH emission feature is observed in all three objects. PNG 093.9-00.1 exhibits NGC 7027-like aliphatic emission in the 3.4 to 3.6 $\mu$m region while IC 5117 and BD +30 3639 exhibit less aliphatic structure. All three PNs additionally exhibit PAH emission at 5.25 $\mu$m., Comment: 17 Pages, 3 figures

Published

2020

29. Spitzer Follow-up of Extremely Cold Brown Dwarfs Discovered by the Backyard Worlds: Planet 9 Citizen Science Project

Author

Meisner, Aaron M., Faherty, Jacqueline K., Kirkpatrick, J. Davy, Schneider, Adam C., Caselden, Dan, Gagne, Jonathan, Kuchner, Marc J., Burgasser, Adam J., Casewell, Sarah L., Debes, John H., Artigau, Etienne, Gagliuffi, Daniella C. Bardalez, Logsdon, Sarah E., Kiman, Rocio, Allers, Katelyn, Hsu, Chih-Chun, Wisniewski, John P., Allen, Michaela B., Beaulieu, Paul, Colin, Guillaume, Luca, Hugo A. Durantini, Goodman, Sam, Gramaize, Leopold, Hamlet, Leslie K., Hinckley, Ken, Kiwy, Frank, Martin, David W., Pendrill, William, Rothermich, Austin, Sainio, Arttu, Schumann, Jorg, Andersen, Nikolaj Stevnbak, Tanner, Christopher, Thakur, Vinod, Thevenot, Melina, Walla, Jim, Wedracki, Zbigniew, Aganze, Christian, Gerasimov, Roman, Theissen, Christopher, Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present Spitzer follow-up imaging of 95 candidate extremely cold brown dwarfs discovered by the Backyard Worlds: Planet 9 citizen science project, which uses visually perceived motion in multi-epoch WISE images to identify previously unrecognized substellar neighbors to the Sun. We measure Spitzer [3.6]-[4.5] color to phototype our brown dwarf candidates, with an emphasis on pinpointing the coldest and closest Y dwarfs within our sample. The combination of WISE and Spitzer astrometry provides quantitative confirmation of the transverse motion of 75 of our discoveries. Nine of our motion-confirmed objects have best-fit linear motions larger than 1"/yr; our fastest-moving discovery is WISEA J155349.96+693355.2 (total motion ~2.15"/yr), a possible T type subdwarf. We also report a newly discovered wide-separation (~400 AU) T8 comoving companion to the white dwarf LSPM J0055+5948 (the fourth such system to be found), plus a candidate late T companion to the white dwarf LSR J0002+6357 at 5.5' projected separation (~8,700 AU if associated). Among our motion-confirmed targets, five have Spitzer colors most consistent with spectral type Y. Four of these five have exceptionally red Spitzer colors suggesting types of Y1 or later, adding considerably to the small sample of known objects in this especially valuable low-temperature regime. Our Y dwarf candidates begin bridging the gap between the bulk of the Y dwarf population and the coldest known brown dwarf., Comment: accepted for publication in The Astrophysical Journal

Published

2020

30. WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5: The First Extreme T-type Subdwarfs?

Author

Schneider, Adam C., Burgasser, Adam J., Gerasimov, Roman, Marocco, Federico, Gagne, Jonathan, Goodman, Sam, Beaulieu, Paul, Pendrill, William, Rothermich, Austin, Sainio, Arttu, Kuchner, Marc J., Caselden, Dan, Meisner, Aaron M., Faherty, Jacqueline K., Mamajek, Eric E., Hsu, Chih-Chun, Greco, Jennifer J., Cushing, Michael C., Kirkpatrick, J. Davy, Gagliuffi, Daniella Bardalez, Logsdon, Sarah E., Allers, Katelyn, Debes, John H., Worlds, The Backyard, and Collaboration, Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present the discoveries of WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5, two low-temperature (1200$-$1400 K), high proper motion T-type subdwarfs. Both objects were discovered via their high proper motion ($>$0.5 arcsec yr$^{-1}$); WISEA J181006.18-101000.5 as part of the NEOWISE proper motion survey and WISEA J041451.67-585456.7 as part of the citizen science project Backyard Worlds; Planet 9. We have confirmed both as brown dwarfs with follow-up near-infrared spectroscopy. Their spectra and near-infrared colors are unique amongst known brown dwarfs, with some colors consistent with L-type brown dwarfs and other colors resembling those of the latest-type T dwarfs. While no forward model consistently reproduces the features seen in their near-infrared spectra, the closest matches suggest very low metallicities ([Fe/H] $\leq$ -1), making these objects likely the first examples of extreme subdwarfs of the T spectral class (esdT). WISEA J041451.67-585456.7 and WISEA J181006.18-101000.5 are found to be part of a small population of objects that occupy the "substellar transition zone," and have the lowest masses and effective temperatures of all objects in this group., Comment: Accepted for publication in the Astrophysical Journal

Published

2020

31. WISEA J083011.95+283716.0: A Missing Link Planetary-Mass Object

Author

Gagliuffi, Daniella C. Bardalez, Faherty, Jacqueline K., Schneider, Adam C., Meisner, Aaron, Caselden, Dan, Colin, Guilluame, Goodman, Sam, Kirkpatrick, J. Davy, Kuchner, Marc J., Gagné, Jonathan, Logsdon, Sarah E., Burgasser, Adam J., Allers, Katelyn, Debes, John, Wisniewski, John, Rothermich, Austin, Andersen, Nikolaj S., Thévenot, Melina, and Walla, Jim

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present the discovery of WISEA J083011.95+283716.0, the first Y dwarf candidate identified through the Backyard Worlds: Planet 9 citizen science project. We identified this object as a red, fast-moving source with a faint $W2$ detection in multi-epoch \textit{AllWISE} and unWISE images. We have characterized this object with Spitzer Space Telescope and \textit{Hubble Space Telescope} follow-up imaging. With mid-infrared detections in \textit{Spitzer}'s \emph{ch1} and \emph{ch2} bands and flux upper limits in Hubble Space Telescope $F105W$ and $F125W$ filters, we find that this object is both very faint and has extremely red colors ($ch1-ch2 = 3.25\pm0.23$ mag, $F125W-ch2 \geq 9.36$ mag), consistent with a T$_{eff}\sim300$ K source, as estimated from the known Y dwarf population. A preliminary parallax provides a distance of $11.1^{+2.0}_{-1.5}$ pc, leading to a slightly warmer temperature of $\sim350$ K. The extreme faintness and red Hubble Space Telescope and Spitzer Space Telescope colors of this object suggest it may be a link between the broader Y dwarf population and the coldest known brown dwarf WISE J0855$-$0714, and highlight our limited knowledge of the true spread of Y dwarf colors. We also present four additional Backyard Worlds: Planet 9 late-T brown dwarf discoveries within 30 pc., Comment: 13 pages, 6 figures, 5 tables

Published

2020

32. Solar Contamination in Extreme Precision Radial Velocity Measurements: Deleterious Effects and Prospects for Mitigation

Author

Roy, Arpita, Halverson, Sam, Mahadevan, Suvrath, Stefansson, Gudmundur, Monson, Andrew, Logsdon, Sarah E., Bender, Chad F., Blake, Cullen H., Golub, Eli, Gupta, Arvind, Jaehnig, Kurt P., Kanodia, Shubham, Kaplan, Kyle, McElwain, Michael W., Ninan, Joe P., Rajagopal, Jayadev, Robertson, Paul, Schwab, Christian, Terrien, Ryan C., Wang, Sharon Xuesong, Wolf, Marsha J., and Wright, Jason T.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Solar contamination, due to moonlight and atmospheric scattering of sunlight, can cause systematic errors in stellar radial velocity (RV) measurements that significantly detract from the ~10cm/s sensitivity required for the detection and characterization of terrestrial exoplanets in or near Habitable Zones of Sun-like stars. The addition of low-level spectral contamination at variable effective velocity offsets introduces systematic noise when measuring velocities using classical mask-based or template-based cross-correlation techniques. Here we present simulations estimating the range of RV measurement error induced by uncorrected scattered sunlight contamination. We explore potential correction techniques, using both simultaneous spectrometer sky fibers and broadband imaging via coherent fiber imaging bundles, that could reliably reduce this source of error to below the photon-noise limit of typical stellar observations. We discuss the limitations of these simulations, the underlying assumptions, and mitigation mechanisms. We also present and discuss the components designed and built into the NEID precision RV instrument for the WIYN 3.5m telescope, to serve as an ongoing resource for the community to explore and evaluate correction techniques. We emphasize that while "bright time" has been traditionally adequate for RV science, the goal of 10cm/s precision on the most interesting exoplanetary systems may necessitate access to darker skies for these next-generation instruments.

Published

2020

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

Author

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

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

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$_\oplus$ to 2.6 R$_\oplus$ and orbital periods ranging from 9.98 to 37.43 days. Ground-based follow-up combined with diagnostic vetting and validation tests enable 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 $1.19\pm0.11$ R$_\oplus$ and resides in the conservative habitable zone of its host star, where it receives a flux from its star that is approximately 86% of the 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$_\oplus$), will be an excellent target for JWST and beyond. TESS is scheduled to return to the Southern Hemisphere and observe TOI-700 for an additional 11 sectors in its extended mission, which should provide further constraints on the known planet parameters and searches for additional planets and transit timing variations in the system., Comment: Accepted for publication in AJ (30 pages, 13 figures, 4 tables, 2 appendices)

Published

2020

34. WISE2150-7520AB: A very low mass, wide co-moving brown dwarf system discovered through the citizen science project Backyard Worlds: Planet 9

Author

Faherty, Jacqueline K., Goodman, Sam, Caselden, Dan, Colin, Guillaume, Kuchner, Marc J., Meisner, Aaron M., Gagne', Jonathan, Schneider, Adam C., Gonzales, Eileen C., Gagliuffi, Daniella C. Bardalez, Logsdon, Sarah E., Allers, Katelyn, Burgasser, Adam J., and Collaboration, The Backyard Worlds Planet 9

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We report the discovery of WISE2150-7520AB (W2150AB): a widely separated (~ 341 AU) very low mass L1 + T8 co-moving system. The system consists of the previously known L1 primary 2MASS J21501592-7520367 and a newly discovered T8 secondary found at position 21:50:18.99 -75:20:54.6 (MJD=57947) using Wide-field Infrared Survey Explorer (WISE) data via the Backyard Worlds: Planet 9 citizen science project. We present Spitzer ch1 and ch2 photometry (ch1-ch2= 1.41 +/-0.04 mag) of the secondary and FIRE prism spectra of both components. The sources show no peculiar spectral or photometric signatures indicating that each component is likely field age. Using all observed data and the Gaia DR2 parallax of 41.3593 +/- 0.2799 mas for W2150A we deduce fundamental parameters of log(Lbol/Lsun)=-3.69 +/- 0.01, Teff=2118 +/- 62 K, and an estimated mass=72 +/- 12 MJup for the L1 and log(Lbol/Lsun)=-5.64 +/- 0.02, Teff=719 +/- 61 K, and an estimated mass=34 +/- 22 MJup for the T8. At a physical separation of ~341 AU this system has Ebin = 10^41 erg making it the lowest binding energy system of any pair with Mtot < 0.1 Msun not associated with a young cluster. It is equivalent in estimated mass ratio, Ebin, and physical separation to the ~ 2 Myr M7.25 + M8.25 binary brown dwarf 2MASS J11011926-7732383AB (2M1101AB) found in the Chameleon star forming region. W2150AB is the widest companion system yet observed in the field where the primary is an L dwarf or later., Comment: ApJ accepted October 2019. 18 pages, 8 Figures, two tables. All tabular data is available on a viewable/commentable google sheet here: https://docs.google.com/spreadsheets/d/1bG6BZl7wAus9JRjb_zNVP0PwpBUqpH_IG_daPxWi024/edit?usp=sharing

Published

2019

35. Ultra-Stable Environment Control for the NEID Spectrometer: Design and Performance Demonstration

Author

Robertson, Paul, Anderson, Tyler, Stefansson, Gudmundur, Hearty, Frederick R., Monson, Andrew, Mahadevan, Suvrath, Blakeslee, Scott, Bender, Chad, Ninan, Joe P., Conran, David, Levi, Eric, Lubar, Emily, Cole, Amanda, Dykhouse, Adam, Kanodia, Shubham, Nitroy, Colin, Smolsky, Joseph, Tuggle, Demetrius, Blank, Basil, Nelson, Matthew, Blake, Cullen, Halverson, Samuel, Henderson, Chuck, Kaplan, Kyle F., Li, Dan, Logsdon, Sarah E., McElwain, Michael W., Rajagopal, Jayadev, Ramsey, Lawrence W., Roy, Arpita, Schwab, Christian, Terrien, Ryan, and Wright, Jason T.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Two key areas of emphasis in contemporary experimental exoplanet science are the detailed characterization of transiting terrestrial planets, and the search for Earth analog planets to be targeted by future imaging missions. Both of these pursuits are dependent on an order-of-magnitude improvement in the measurement of stellar radial velocities (RV), setting a requirement on single-measurement instrumental uncertainty of order 10 cm/s. Achieving such extraordinary precision on a high-resolution spectrometer requires thermo-mechanically stabilizing the instrument to unprecedented levels. Here, we describe the Environment Control System (ECS) of the NEID Spectrometer, which will be commissioned on the 3.5 m WIYN Telescope at Kitt Peak National Observatory in 2019, and has a performance specification of on-sky RV precision < 50 cm/s. Because NEID's optical table and mounts are made from aluminum, which has a high coefficient of thermal expansion, sub-milliKelvin temperature control is especially critical. NEID inherits its ECS from that of the Habitable-zone Planet Finder (HPF), but with modifications for improved performance and operation near room temperature. Our full-system stability test shows the NEID system exceeds the already impressive performance of HPF, maintaining vacuum pressures below $10^{-6}$ Torr and an RMS temperature stability better than 0.4 mK over 30 days. Our ECS design is fully open-source; the design of our temperature-controlled vacuum chamber has already been made public, and here we release the electrical schematics for our custom Temperature Monitoring and Control (TMC) system., Comment: Accepted for publication in JATIS

Published

2019

36. Probing Late-type T dwarf J-H Color Outliers for Signs of Age

Author

Logsdon, Sarah E., Mace, Gregory N., McLean, Ian S., and Martin, Emily C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the results of a Keck/NIRSPEC follow-up survey of thirteen late-type T dwarfs (T6-T9), twelve of which have unusually red or blue J-H colors. Previous work suggests that J-H color outliers may represent the high-gravity, low-metallicity (old) and low-gravity, solar-metallicity (young) extremes of the late-type T dwarf population. We use medium-resolution Y- and H-band spectroscopy to probe regions of T dwarf atmospheres that are more sensitive to gravity and metallicity variations than the J band. We find that the spectral morphologies of our sample are largely homogeneous, with peak-normalized, Y- and H-band morphologies consistent with spectral standards. However, three objects stand out as potentially old, with overluminous Y-band spectra compared to their respective spectral standards, and a fourth object stands out as potentially young, with an underluminous Y band. Of these four objects, three have been previously identified as potential metallicity/gravity outliers, including the one object in our sample with a normal J-H color. We fit publicly available atmospheric model grids to our spectra and find that the best-fit physical parameters vary depending on the model used. As we continue to probe the characteristics of the late-T population, differences in synthetic spectra of ~10-20% in the blue wing of the Y band and ~45% at 1.65 microns, for the same physical parameters, must be reconciled. Further development and public availability of nonsolar metallicity models is also recommended. Future progress toward deciphering the impacts of gravity, metallicity, and variability in the late-type T dwarf population will also require high signal-to-noise, multiwavelength and multi-epoch photometry and spectroscopy., Comment: accepted to ApJ

Published

2018

37. Y dwarf Trigonometric Parallaxes from the Spitzer Space Telescope

Author

Martin, Emily C., Kirkpatrick, J. Davy, Beichman, Charles A., Smart, Richard L., Faherty, Jacqueline K., Gelino, Christopher R., Cushing, Michael C., Schneider, Adam C., Wright, Edward L., Lowrance, Patrick, Ingalls, James, Tinney, C. G., McLean, Ian S., Logsdon, Sarah E., and Lebreton, Jérémy

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Y dwarfs provide a unique opportunity to study free-floating objects with masses $<$30 M$_{Jup}$ and atmospheric temperatures approaching those of known Jupiter-like exoplanets. Obtaining distances to these objects is an essential step towards characterizing their absolute physical properties. Using Spitzer/IRAC [4.5] images taken over baselines of $\sim$2-7 years, we measure astrometric distances for 22 late-T and early Y dwarfs, including updated parallaxes for 18 objects and new parallax measurements for 4 objects. These parallaxes will make it possible to explore the physical parameter space occupied by the coldest brown dwarfs. We also present the discovery of 6 new late-T dwarfs, updated spectra of two T dwarfs, and the reclassification of a new Y dwarf, WISE J033605.04$-$014351.0, based on Keck/NIRSPEC $J$-band spectroscopy. Assuming that effective temperatures are inversely proportional to absolute magnitude, we examine trends in the evolution of the spectral energy distributions of brown dwarfs with decreasing effective temperature. Surprisingly, the Y dwarf class encompasses a large range in absolute magnitude in the near- to mid-infrared photometric bandpasses, demonstrating a larger range of effective temperatures than previously assumed. This sample will be ideal for obtaining mid-infrared spectra with the James Webb Space Telescope because their known distances will make it easier to measure absolute physical properties., Comment: Accepted for publication in ApJ. 29 Pages

Published

2018

38. Surface Gravities for 228 M, L, and T Dwarfs in the NIRSPEC Brown Dwarf Spectroscopic Survey

Author

Martin, Emily C., Mace, Gregory N., McLean, Ian S., Logsdon, Sarah E., Rice, Emily L., Kirkpatrick, J. Davy, Burgasser, Adam J., McGovern, Mark R., and Prato, Lisa

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We combine 131 new medium-resolution (R~2000) J-band spectra of M, L, and T dwarfs from the Keck NIRSPEC Brown Dwarf Spectroscopic Survey (BDSS) with 97 previously published BDSS spectra to study surface-gravity-sensitive indices for 228 low-mass stars and brown dwarfs spanning spectral types M5-T9. Specifically, we use an established set of spectral indices to determine surface gravity classifications for all M6-L7 objects in our sample by measuring equivalent widths (EW) of the K I lines at 1.1692, 1.1778, 1.2529 um, and the 1.2 um FeHJ absorption index. Our results are consistent with previous surface gravity measurements, showing a distinct double peak - at ~L5 and T5 - in K I EW as a function of spectral type. We analyze K I EWs of 73 objects of known ages and find a linear trend between log(Age) and EW. From this relationship, we assign age ranges to the very low gravity, intermediate gravity, and field gravity designations for spectral types M6-L0. Interestingly, the ages probed by these designations remain broad, change with spectral type, and depend on the gravity sensitive index used. Gravity designations are useful indicators of the possibility of youth, but current datasets cannot be used to provide a precise age estimate., Comment: 33 pages, 13 figures, ApJ in press

Published

2017

39. The AllWISE Motion Survey, Part 2

Author

Kirkpatrick, J. Davy, Kellogg, Kendra, Schneider, Adam C., Fajardo-Acosta, Sergio, Cushing, Michael C., Greco, Jennifer, Mace, Gregory N., Gelino, Christopher R., Wright, Edward L., Eisenhardt, Peter R. M., Stern, Daniel, Faherty, Jacqueline K., Sheppard, Scott S., Lansbury, George B., Logsdon, Sarah E., Martin, Emily C., McLean, Ian S., Schurr, Steven D., Cutri, Roc M., and Conrow, Tim

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We use the AllWISE Data Release to continue our search for WISE-detected motions. In this paper, we publish another 27,846 motion objects, bringing the total number to 48,000 when objects found during our original AllWISE motion survey are included. We use this list, along with the lists of confirmed WISE-based motion objects from the recent papers by Luhman and by Schneider et al. and candidate motion objects from the recent paper by Gagne et al. to search for widely separated, common-proper-motion systems. We identify 1,039 such candidate systems. All 48,000 objects are further analyzed using color-color and color-mag plots to provide possible characterizations prior to spectroscopic follow-up. We present spectra of 172 of these, supplemented with new spectra of 23 comparison objects from the literature, and provide classifications and physical interpretations of interesting sources. Highlights include: (1) the identification of three G/K dwarfs that can be used as standard candles to study clumpiness and grain size in nearby molecular clouds because these objects are currently moving behind the clouds, (2) the confirmation/discovery of several M, L, and T dwarfs and one white dwarf whose spectrophotometric distance estimates place them 5-20 pc from the Sun, (3) the suggestion that the Na 'D' line be used as a diagnostic tool for interpreting and classifying metal-poor late-M and L dwarfs, (4) the recognition of a triple system including a carbon dwarf and late-M subdwarf, for which model fits of the late-M subdwarf (giving [Fe/H] ~ -1.0) provide a measured metallicity for the carbon star, and (5) a possible 24-pc-distant K5 dwarf + peculiar red L5 system with an apparent physical separation of 0.1 pc., Comment: 62 pages with 80 figures, accepted for publication in The Astrophysical Journal Supplement Series, 23 Mar 2016; second version fixes a few small typos and corrects the footnotes for Table 4

Published

2016

40. Haze in Pluto's atmosphere: Results from SOFIA and ground-based observations of the 2015 June 29 Pluto occultation

Author

Person, Michael J., Bosh, Amanda S., Zuluaga, Carlos A., Sickafoose, Amanda A., Levine, Stephen E., Pasachoff, Jay M., Babcock, Bryce A., Dunham, Edward W., McLean, Ian S., Wolf, Jürgen, Abe, Fumio, Becklin, E.E., Bida, Thomas A., Bright, Len P., Brothers, Tim, Christie, Grant, Durst, Rebecca F., Gilmore, Alan C., Hamilton, Ryan T., Harris, Hugh C., Johnson, Chris, Kilmartin, Pamela M., Kosiarek, Molly, Leppik, Karina, Logsdon, Sarah E., Lucas, Robert, Mathers, Shevill, Morley, C.J.K., Nelson, Peter, Ngan, Haydn, Pfüller, Enrico, Natusch, Tim, Sallum, Stephanie, Savage, Maureen L., Seeger, Christina H., Siu, Ho Chit, Stockdale, Chris, Suzuki, Daisuke, Thanathibodee, Thanawuth, Tilleman, Trudy, Tristram, Paul J., Vacca, William D., Van Cleve, Jeffrey, Varughese, Carolle, Weisenbach, Luke W., Widen, Elizabeth, and Wiedemann, Manuel

Published

2021

41. First exoplanet transit observation with the Stratospheric Observatory for Infrared Astronomy: Confirmation of Rayleigh scattering in HD 189733 b with HIPO

Author

Angerhausen, Daniel, Mandushev, Georgi, Mandell, Avi, Dunham, Edward W., Becklin, Eric E., Collins, Peter L., Hamilton, Ryan T., Logsdon, Sarah E., McElwain, Michael W., McLean, Ian S., Pfueller, Enrico, Savage, Maureen L., Shenoy, Sachindev S., Vacca, William, VanCleve, Jeffry, and Wolf, Juergen

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Here we report on the first successful exoplanet transit observation with the Stratospheric Observatory for Infrared Astronomy (SOFIA). We observed a single transit of the hot Jupiter HD 189733 b, obtaining two simultaneous primary transit lightcurves in the B and z' bands as a demonstration of SOFIA's capability to perform absolute transit photometry. We present a detailed description of our data reduction, in particular the correlation of photometric systematics with various in-flight parameters unique to the airborne observing environment. The derived transit depths at B and z' wavelengths confirm a previously reported slope in the optical transmission spectrum of HD 189733 b. Our results give new insights to the current discussion about the source of this Rayleigh scattering in the upper atmosphere and the question of fixed limb darkening coefficients in fitting routines., Comment: 40 pages, 7 figures, accepted for publication in JATIS

Published

2015

42. The Brown Dwarf Kinematics Project (BDKP). IV. Radial Velocities of 85 Late-M and L dwarfs with MagE

Author

Burgasser, Adam J., Logsdon, Sarah E., Gagne, Jonathan, Bochanski, John J., Faherty, Jaqueline K., West, Andrew A., Mamajek, Eric E., Schmidt, Sarah J., and Cruz, Kelle L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Radial velocity measurements are presented for 85 late M- and L-type very low mass stars and brown dwarfs obtained with the Magellan Echellette (MagE) spectrograph. Targets primarily have distances within 20 pc of the Sun, with more distant sources selected for their unusual spectral energy distributions. We achieved precisions of 2--3 km/s, and combined these with astrometric and spectrophotometric data to calculate $UVW$ velocities. Most are members of the thin disk of the Galaxy, and velocity dispersions indicate a mean age of 5.2$\pm$0.2 Gyr for sources within 20 pc. We find significantly different kinematic ages between late-M dwarfs (4.0$\pm$0.2 Gyr) and L dwarfs (6.5$\pm$0.4 Gyr) in our sample that are contrary to predictions from prior simulations. This difference appears to be driven by a dispersed population of unusually blue L dwarfs which may be more prevalent in our local volume-limited sample than in deeper magnitude-limited surveys. The L dwarfs exhibit an asymmetric $U$ velocity distribution with a net inward flow, similar to gradients recently detected in local stellar samples. Simulations incorporating brown dwarf evolution and Galactic orbital dynamics are unable to reproduce the velocity asymmetry, suggesting non-axisymmetric perturbations or two distinct L dwarf populations. We also find the L dwarfs to have a kinematic age-activity correlation similar to more massive stars. We identify several sources with low surface gravities, and two new substellar candidate members of nearby young moving groups: the astrometric binary DENIS J08230313$-$4912012AB, a low-probability member of the $\beta$ Pictoris Moving Group; and 2MASS J15104786-2818174, a moderate-probability member of the 30-50 Myr Argus Association., Comment: 81 pages, 77 figures, accepted for publication to ApJS

Published

2015

43. Observations of Type Ia Supernova 2014J with FLITECAM/SOFIA

Author

Vacca, William D., Hamilton, Ryan T., Savage, Maureen, Shenoy, Sachindev, Becklin, E. E., McLean, Ian S., Logsdon, Sarah E., Gehrz, R. D., Spyromilio, J., Garnavich, P., Marion, G. H., and Fox, O. D.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present medium resolution near-infrared (NIR) spectra, covering 1.1 to 3.4 microns, of the normal Type Ia supernova (SN Ia) SN 2014J in M82 obtained with the FLITECAM instrument aboard SOFIA approximately 17-25 days after maximum B light. Our 2.8-3.4 micron spectra may be the first ~3 micron spectra of a SN Ia ever published. The spectra spanning the 1.5-2.7 micron range are characterized by a strong emission feature at ~1.77 microns with a full width at half maximum of ~11,000-13,000 km/s. We compare the observed FLITECAM spectra to the recent non-LTE delayed detonation models of Dessart et al. (2014) and find that the models agree with the spectra remarkably well in the 1.5-2.7 micron wavelength range. Based on this comparison we identify the ~1.77 micron emission peak as a blend of permitted lines of Co II. Other features seen in the 2.0 - 2.5 micron spectra are also identified as emission from permitted transitions of Co II. However, the models are not as successful at reproducing the spectra in the 1.1 - 1.4 micron range or between 2.8 and 3.4 microns. These observations demonstrate the promise of SOFIA by allowing access to wavelength regions inaccessible from the ground, and serve to draw attention to the usefulness of the regions between the standard ground-based NIR passbands for constraining SN models., Comment: 23 pages, including 7 figures; Accepted by ApJ

Published

2015

44. TOI-1670 c, a 40 day Orbital Period Warm Jupiter in a Compact System, Is Well Aligned

Author

Lubin, Jack, primary, Wang, Xian-Yu, additional, Rice, Malena, additional, Dong, Jiayin, additional, Wang, Songhu, additional, Radzom, Brandon T., additional, Robertson, Paul, additional, Stefansson, Gudmundur, additional, Alvarado-Montes, Jaime A., additional, Beard, Corey, additional, Bender, Chad F., additional, Gupta, Arvind F., additional, Halverson, Samuel, additional, Kanodia, Shubham, additional, Li, Dan, additional, Lin, Andrea S. J., additional, Logsdon, Sarah E., additional, Lubar, Emily, additional, Mahadevan, Suvrath, additional, Ninan, Joe P., additional, Rajagopal, Jayadev, additional, Roy, Arpita, additional, Schwab, Christian, additional, and Wright, Jason T., additional

Published

2023

45. The AllWISE Motion Survey and The Quest for Cold Subdwarfs

Author

Kirkpatrick, J. Davy, Schneider, Adam, Fajardo-Acosta, Sergio, Gelino, Christopher R., Mace, Gregory N., Wright, Edward L., Logsdon, Sarah E., McLean, Ian S., Cushing, Michael C., Skrutskie, Michael F., Eisenhardt, Peter R., Stern, Daniel, Balokovic, Mislav, Burgasser, Adam J., Faherty, Jacqueline K., Lansbury, George B., Rich, J. A., Skrzypek, Nathalie, Fowler, John W., Cutri, Roc M., Masci, Frank J., Conrow, Tim, Grillmair, Carl J., McCallon, Howard L., Beichman, Charles A., and Marsh, Kenneth A.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The AllWISE processing pipeline has measured motions for all objects detected on WISE images taken between 2010 January and 2011 February. In this paper, we discuss new capabilities made to the software pipeline in order to make motion measurements possible, and we characterize the resulting data products for use by future researchers. Using a stringent set of selection criteria, we find 22,445 objects that have significant AllWISE motions, of which 3,525 have motions that can be independently confirmed from earlier 2MASS images yet lack any published motions in SIMBAD. Another 58 sources lack 2MASS counterparts and are presented as motion candidates only. Limited spectroscopic follow-up of this list has already revealed eight new L subdwarfs. These may provide the first hints of a "subdwarf gap" at mid-L types that would indicate the break between the stellar and substellar populations at low metallicities (i.e., old ages). Another object in the motion list -- WISEA J154045.67-510139.3 -- is a bright (J ~ 9 mag) object of type M6; both the spectrophotometric distance and a crude preliminary parallax place it ~6 pc from the Sun. We also compare our list of motion objects to the recently published list of 762 WISE motion objects from Luhman (2014). While these first large motion studies with WISE data have been very successful in revealing previously overlooked nearby dwarfs, both studies missed objects that the other found, demonstrating that many other nearby objects likely await discovery in the AllWISE data products., Comment: Accepted for publication in The Astrophysical Journal. Table 3 is a machine-readable ASCII file

Published

2014

46. The Exemplar T8 Subdwarf Companion of Wolf 1130

Author

Mace, Gregory N., Kirkpatrick, J. Davy, Cushing, Michael C., Gelino, Christopher R., McLean, Ian S., Logsdon, Sarah E., Wright, Edward L., Skrutskie, Michael F., Beichman, Charles A., Eisenhardt, Peter R., and Kulas, Kristin R.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We have discovered a wide separation (188.5") T8 subdwarf companion to the sdM1.5+WD binary Wolf 1130. Companionship of WISE J200520.38+542433.9 is verified through common proper motion over a ~3 year baseline. Wolf 1130 is located 15.83 +/- 0.96 parsecs from the Sun, placing the brown dwarf at a projected separation of ~3000 AU. Near-infrared colors and medium resolution (R~2000-4000) spectroscopy establish the uniqueness of this system as a high-gravity, low-metallicity benchmark. Although there are a number of low-metallicity T dwarfs in the literature, WISE J200520.38+542433.9 has the most extreme inferred metallicity to date with [Fe/H] = -0.64 +/- 0.17 based on Wolf 1130. Model comparisons to this exemplar late-type subdwarf support it having an old age, a low metallicity, and a small radius. However, the spectroscopic peculiarities of WISE J200520.38+542433.9 underscore the importance of developing the low-metallicity parameter space of the most current atmospheric models., Comment: Accepted to ApJ on 05 September 2013; 33 pages in preprint format, 8 figures, 3 tables

Published

2013

47. Deep learning solutions to telescope pointing and guiding

Author

Ibsen, Jorge, Chiozzi, Gianluca, Zariski, Jackson, Kratter, Kaitlin M., Logsdon, Sarah E., Bender, Chad, Li, Dan, Schweiker, Heidi, Rajagopal, Jayadev, McBride, Bill, and Hunting, Emily

Published

2024

48. The Hyperactive L Dwarf 2MASS J13153094-2649513: Continued Emission and a Brown Dwarf Companion

Author

Burgasser, Adam J., Sitarski, Breann N., Gelino, Christopher R., Logsdon, Sarah E., and Perrin, Marshall D.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report new observations of the unusually active, high proper motion L5e dwarf 2MASS J13153094-2649513. Optical spectroscopy with Magellan/MagE reveals persistent nonthermal emission, with narrow H I Balmer, Na I and K I lines all observed in emission. Low-resolution near-infrared spectroscopy with IRTF/SpeX indicates the presence of a low-temperature companion, which is resolved through multi-epoch laser guide star adaptive optics imaging at Keck. The comoving companion is separated by 338 \pm 4 mas, and its relative brightness (\Delta K_s = 5.09 \pm 0.10) makes this system the second most extreme flux ratio very low-mass binary identified to date. Resolved near-infrared spectroscopy with Keck/OSIRIS identifies this companion as a T7 dwarf. The absence of Li I absorption in combined-light optical spectroscopy constrains the system age to >~0.8-1.0 Gyr, while the system's kinematics and unusually low mass ratio (M_2/M_1 = 0.3-0.6) suggests that it is even older. A coevality test of the components also indicates an older age, but reveals discrepancies between evolutionary and atmosphere model fits of the secondary which are likely attributable to poor reproduction of its near-infrared spectrum. With a projected separation of 6.6 \pm 0.9 AU, the 2MASS J13153094-2649513 system is too widely separated for mass exchange or magnetospheric interactions to be powering its persistent nonthermal emission. Rather, the emission is probably chromospheric in nature, signaling an inversion in the age-activity relation in which strong magnetic fields are maintained by relatively old and massive ultracool dwarfs., Comment: 15 pages, accepted for publication in Astrophysical Journal

Published

2011

49. TESS Spots a Super-puff: The Remarkably Low Density of TOI-1420b

Author

Yoshida, Stephanie, primary, Vissapragada, Shreyas, additional, Latham, David W., additional, Bieryla, Allyson, additional, Thorngren, Daniel P., additional, Eastman, Jason D., additional, López-Morales, Mercedes, additional, Barkaoui, Khalid, additional, Beichman, Charles, additional, Berlind, Perry, additional, Buchave, Lars A., additional, Calkins, Michael L., additional, Ciardi, David R., additional, Collins, Karen A., additional, Cosentino, Rosario, additional, Crossfield, Ian J. M., additional, Dai, Fei, additional, DiTomasso, Victoria, additional, Dowling, Nicholas, additional, Esquerdo, Gilbert A., additional, Forés-Toribio, Raquel, additional, Ghedina, Adriano, additional, Goliguzova, Maria V., additional, Golub, Eli, additional, Gonzales, Erica J., additional, Horta, Ferran Grau, additional, Higuera, Jesus, additional, Hoch, Nora, additional, Horne, Keith, additional, Howell, Steve B., additional, Jenkins, Jon M., additional, Klusmeyer, Jessica, additional, Laloum, Didier, additional, Lissauer, Jack J., additional, Logsdon, Sarah E., additional, Malavolta, Luca, additional, Matson, Rachel A., additional, Matthews, Elisabeth C., additional, McLeod, Kim K., additional, Medina, Jennifer V., additional, Muñoz, Jose A., additional, Osborn, Hugh P., additional, Safonov, Boris, additional, Schlieder, Joshua, additional, Schmidt, Michael, additional, Schweiker, Heidi, additional, Seager, Sara, additional, Sozzetti, Alessandro, additional, Srdoc, Gregor, additional, Stefánsson, Guđmundur, additional, Strakhov, Ivan A., additional, Striegel, Stephanie, additional, Villaseñor, Joel, additional, and Winn, Joshua N., additional

Published

2023

50. The Extreme Stellar-signals Project. III. Combining Solar Data from HARPS, HARPS-N, EXPRES, and NEID

Author

Zhao, Lily L., primary, Dumusque, Xavier, additional, Ford, Eric B., additional, Llama, Joe, additional, Mortier, Annelies, additional, Bedell, Megan, additional, Al Moulla, Khaled, additional, Bender, Chad F., additional, Blake, Cullen H., additional, Brewer, John M., additional, Collier Cameron, Andrew, additional, Cosentino, Rosario, additional, Figueira, Pedro, additional, Fischer, Debra A., additional, Ghedina, Adriano, additional, Gonzalez, Manuel, additional, Halverson, Samuel, additional, Kanodia, Shubham, additional, Latham, David W., additional, Lin, Andrea S. J., additional, Lo Curto, Gaspare, additional, Lodi, Marcello, additional, Logsdon, Sarah E., additional, Lovis, Christophe, additional, Mahadevan, Suvrath, additional, Monson, Andrew, additional, Ninan, Joe P., additional, Pepe, Francesco, additional, Roettenbacher, Rachael M., additional, Roy, Arpita, additional, Santos, Nuno C., additional, Schwab, Christian, additional, Stefánsson, Guđmundur, additional, Szymkowiak, Andrew E., additional, Terrien, Ryan C., additional, Udry, Stephane, additional, Weiss, Sam A., additional, Wildi, François, additional, Wildi, Thibault, additional, and Wright, Jason T., additional

Published

2023