Your search keyword '"Dransfield, Georgina"' showing total 16 results

1. Infrared photometry with InGaAs detectors: First light with SPECULOOS

Author

Pedersen, Peter P., Queloz, Didier, Garcia, Lionel, Schacke, Yannick, Delrez, Laetitia, Demory, Brice-Olivier, Ducrot, Elsa, Dransfield, Georgina, Gillon, Michael, Hooton, Matthew J., Janó-Muñoz, Clàudia, Jehin, Emmanuël, Sebastian, Daniel, Timmermans, Mathilde, Thompson, Samantha, Triaud, Amaury H. M. J., de Wit, Julien, and Zúñiga-Fernández, Sebastián

Subjects

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

Abstract

We present the photometric performance of SPIRIT, a ground-based near-infrared InGaAs CMOS-based instrument (1280 by 1024 pixels, 12 micron pitch), using on-sky results from the SPECULOOS-Southern Observatory during 2022 - 2023. SPIRIT was specifically designed to optimise time-series photometric precision for observing late M and L type stars. To achieve this, a custom wide-pass filter (0.81 - 1.33 microns, zYJ ) was used, which was also designed to minimise the effects of atmospheric precipitable water vapour (PWV) variability on differential photometry. Additionally, SPIRIT was designed to be maintenance-free by eliminating the need for liquid nitrogen for cooling. We compared SPIRIT's performance with a deeply-depleted (2048 by 2048 pixels, 13.5 micron pitch) CCD-based instrument (using an I+z' filter, 0.7 - 1.1 microns) through simultaneous observations. For L type stars and cooler, SPIRIT exhibited better photometric noise performance compared to the CCD-based instrument. The custom filter also significantly minimised red noise in the observed light curves typically introduced by atmospheric PWV variability. In SPIRIT observations, the detector's read noise was the dominant limitation, although in some cases, we were limited by the lack of comparison stars., Comment: SPIE Astronomical Telescopes + Instrumentation 2024

Published

2024

2. BEBOP V. Homogeneous Stellar Analysis of Potential Circumbinary Planet Hosts

Author

Freckelton, Alix V., Sebastian, Daniel, Mortier, Annelies, Triaud, Amaury H. M. J., Maxted, Pierre F. L., Acuña, Lorena, Armstrong, David J., Battley, Matthew P., Baycroft, Thomas A., Boisse, Isabelle, Bourrier, Vincent, Carmona, Andres, Coleman, Gavin A. L., Cameron, Andrew Collier, Cortés-Zuleta, Pía, Delfosse, Xavier, Dransfield, Georgina, Duck, Alison, Forveille, Thierry, French, Jenni R., Hara, Nathan, Heidari, Neda, Hellier, Coel, Kunovac, Vedad, Martin, David V., Martioli, Eder, McCormac, James J., Nelson, Richard P., Sairam, Lalitha, Sousa, Sérgio G., Standing, Matthew R., and Willett, Emma

Subjects

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

Abstract

Planets orbiting binary systems are relatively unexplored compared to those around single stars. Detections of circumbinary planets and planetary systems offer a first detailed view into our understanding of circumbinary planet formation and dynamical evolution. The BEBOP (Binaries Escorted by Orbiting Planets) radial velocity survey plays a special role in this adventure as it focuses on eclipsing single-lined binaries with an FGK dwarf primary and M dwarf secondary allowing for the highest-radial velocity precision using the HARPS and SOPHIE spectrographs. We obtained 4512 high-resolution spectra for the 179 targets in the BEBOP survey which we used to derive the stellar atmospheric parameters using both equivalent widths and spectral synthesis. We furthermore derive stellar masses, radii, and ages for all targets. With this work, we present the first homogeneous catalogue of precise stellar parameters for these eclipsing single-lined binaries., Comment: accepted for publication in MNRAS

Published

2024

3. The EBLM Project XII. An eccentric, long-period eclipsing binary with a companion near the hydrogen-burning limit

Author

Davis, Yasmin T., Triaud, Amaury H. M. J., Freckelton, Alix V., Mortier, Annelies, Sebastian, Daniel, Baycroft, Thomas, Brahm, Rafael, Dransfield, Georgina, Duck, Alison, Henning, Thomas, Hobson, Melissa J., Jordán, Andrés, Kunovac, Vedad, Martin, David V., Maxted, Pierre F. L., Sairam, Lalitha, Standing, Matthew R., Swayne, Matthew I., Trifonov, Trifon, and Udry, Stéphane

Subjects

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

Abstract

In the hunt for Earth-like exoplanets it is crucial to have reliable host star parameters, as they have a direct impact on the accuracy and precision of the inferred parameters for any discovered exoplanet. For stars with masses between 0.35 and 0.5 ${\rm M_{\odot}}$ an unexplained radius inflation is observed relative to typical stellar models. However, for fully convective objects with a mass below 0.35 ${\rm M_{\odot}}$ it is not known whether this radius inflation is present as there are fewer objects with accurate measurements in this regime. Low-mass eclipsing binaries present a unique opportunity to determine empirical masses and radii for these low-mass stars. Here we report on such a star, EBLM J2114-39\,B. We have used HARPS and FEROS radial-velocities and \textit{TESS} photometry to perform a joint fit of the data, and produce one of the most precise estimates of a very low mass star's parameters. Using a precise and accurate radius for the primary star using {\it Gaia} DR3 data, we determine J2114-39 to be a $M_1 = 0.998 \pm 0.052$~${\rm M_{\odot}}$ primary star hosting a fully convective secondary with mass $M_2~=~0.0986~\pm 0.0038~\,\mathrm{M_{\odot}}$, which lies in a poorly populated region of parameter space. With a radius $R_2 =~0.1275~\pm0.0020~\,\mathrm{R_{\odot}}$, similar to TRAPPIST-1, we see no significant evidence of radius inflation in this system when compared to stellar evolution models. We speculate that stellar models in the regime where radius inflation is observed might be affected by how convective overshooting is treated., Comment: Accepted for publication MNRAS

Published

2023

4. New methods for radial-velocity measurements of double-lined binaries, and detection of a circumbinary planet orbiting TIC 172900988

Author

Sairam, Lalitha, Triaud, Amaury H. M. J., Baycroft, Thomas A., Orosz, Jerome, Boisse, Isabelle, Heidari, Neda, Sebastian, Daniel, Dransfield, Georgina, Martin, David V., Santerne, Alexandre, and Standing, Matthew R.

Subjects

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

Abstract

Ongoing ground-based radial-velocity observations seeking to detect circumbinary planets focus on single-lined binaries even though over nine in every ten binary systems in the solar-neighbourhood are double-lined. Double-lined binaries are on average brighter, and should in principle yield more precise radial-velocities. However, as the two stars orbit one another, they produce a time-varying blending of their weak spectral lines. This makes an accurate measure of radial velocities difficult, producing a typical scatter of 10-15m/s. This extra noise prevents the detection of most orbiting circumbinary planets. We develop two new data-driven approaches to disentangle the two stellar components of a double-lined binary, and extract accurate and precise radial-velocities. Both approaches use a Gaussian Process regression, with the first one working in the spectral domain, whereas the second works on cross-correlated spectra. We apply our new methods to TIC 172900988, a proposed circumbinary system with a double-lined binary, and detect a circumbinary planet with an orbital period of 150 days, different than previously proposed. We also measure a significant residual scatter, which we speculate is caused by stellar activity. We show that our two data-driven methods outperform the traditionally used TODCOR and TODMOR, for that particular binary system., Comment: 17 pages, 22 figures, 2 tables, Accepted for publication in MNRAS

Published

2023

5. An M dwarf accompanied by a close-in giant orbiter with SPECULOOS

Author

Triaud, Amaury H. M. J., Dransfield, Georgina, Kagetani, Taiki, Timmermans, Mathilde, Narita, Norio, Barkaoui, Khalid, Hirano, Teruyuki, Rackham, Benjamin V., Mori, Mayuko, Baycroft, Thomas, Benkhaldoun, Zouhair, Burgasser, Adam J., Caldwell, Douglas A., Collins, Karen A., Davis, Yasmin T., Delrez, Laetitia, Demory, Brice-Oliver, Ducrot, Elsa, Fukui, Akihiko, Muñoz, Clàudia Jano, Jehin, Emmanuël, García, Lionel J., Ghachoui, Mourad, Gillon, Michaël, Chew, Yilen Gómez Maqueo, Hooton, Matthew J., Ikoma, Masahiro, Kawauchi, Kiyoe, Kotani, Takayuki, Levine, Alan M., Pallé, Enric, Pedersen, Peter P., Pozuelos, Francisco J., Queloz, Didier, Scutt, Owen J., Seager, Sara, Sebastian, Daniel, Tamura, Motohide, Thompson, Samantha, Watanabe, Noriharu, de Wit, Julien, Winn, Joshua N., and Zúñiga-Fernández, Sebastián

Subjects

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

Abstract

In the last decade, a dozen close-in giant planets have been discovered orbiting stars with spectral types ranging from M0 to M4, a mystery since known formation pathways do not predict the existence of such systems. Here, we confirm TOI-4860 b, a Jupiter-sized planet orbiting an M4.5 host, a star at the transition between fully and partially convective interiors. First identified with TESS data, we validate the transiting companion's planetary nature through multicolour photometry from the TRAPPIST-South/North, SPECULOOS, and MuSCAT3 facilities. Our analysis yields a radius of $0.76 \pm 0.02~ \rm R_{Jup}$ for the planet, a mass of $0.34~\rm M_\odot$ for the star, and an orbital period of 1.52 d. Using the newly commissioned SPIRIT InGaAs camera at the SPECULOOS-South Observatory, we collect infrared photometry in zYJ that spans the time of secondary eclipse. These observations do not detect a secondary eclipse, placing an upper limit on the brightness of the companion. The planetary nature of the companion is further confirmed through high-resolution spectroscopy obtained with the IRD spectrograph at Subaru Telescope, from which we measure a mass of $0.67 \pm 0.14~\rm M_{Jup}$ . Based on its overall density, TOI-4860 b appears to be rich in heavy elements, like its host star., Comment: Accepted for publication in MNRAS Letters

Published

2023

6. A massive hot Jupiter orbiting a metal-rich early-M star discovered in the TESS full frame images

Author

Gan, Tianjun, Cadieux, Charles, Jahandar, Farbod, Vazan, Allona, Wang, Sharon X., Mao, Shude, Alvarado-Montes, Jaime A., Lin, D. N. C., Artigau, Étienne, Cook, Neil J., Doyon, René, Mann, Andrew W., Stassun, Keivan G., Burgasser, Adam J., Rackham, Benjamin V., Howell, Steve B., Collins, Karen A., Barkaoui, Khalid, Shporer, Avi, de Leon, Jerome, Arnold, Luc, Ricker, George R., Vanderspek, Roland, Latham, David W., Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Burdanov, Artem, Charbonneau, David, Dransfield, Georgina, Fukui, Akihiko, Furlan, Elise, Gillon, Michaël, Hooton, Matthew J., Lewis, Hannah M., Littlefield, Colin, Mireles, Ismael, Narita, Norio, Ormel, Chris W., Quinn, Samuel N., Sefako, Ramotholo, Timmermans, Mathilde, Vezie, Michael, and de Wit, Julien

Subjects

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

Abstract

Observations and statistical studies have shown that giant planets are rare around M dwarfs compared with Sun-like stars. The formation mechanism of these extreme systems remains under debate for decades. With the help of the TESS mission and ground based follow-up observations, we report the discovery of TOI-4201b, the most massive and densest hot Jupiter around an M dwarf known so far with a radius of $1.22\pm 0.04\ R_J$ and a mass of $2.48\pm0.09\ M_J$, about 5 times heavier than most other giant planets around M dwarfs. It also has the highest planet-to-star mass ratio ($q\sim 4\times 10^{-3}$) among such systems. The host star is an early-M dwarf with a mass of $0.61\pm0.02\ M_{\odot}$ and a radius of $0.63\pm0.02\ R_{\odot}$. It has significant super-solar iron abundance ([Fe/H]=$0.52\pm 0.08$ dex). However, interior structure modeling suggests that its planet TOI-4201b is metal-poor, which challenges the classical core-accretion correlation of stellar-planet metallicity, unless the planet is inflated by additional energy sources. Building on the detection of this planet, we compare the stellar metallicity distribution of four planetary groups: hot/warm Jupiters around G/M dwarfs. We find that hot/warm Jupiters show a similar metallicity dependence around G-type stars. For M dwarf host stars, the occurrence of hot Jupiters shows a much stronger correlation with iron abundance, while warm Jupiters display a weaker preference, indicating possible different formation histories., Comment: 24 pages, 14 figures, 4 tables, accepted to AJ

Published

2023

7. Three long period transiting giant planets from TESS

Author

Brahm, Rafael, Ulmer-Moll, Solène, Hobson, Melissa J., Jordán, Andrés, Henning, Thomas, Trifonov, Trifon, Jones, Matías I., Schlecker, Martin, Espinoza, Nestor, Rojas, Felipe I., Torres, Pascal, Sarkis, Paula, Tala, Marcelo, Eberhardt, Jan, Kossakowski, Diana, Muñoz, Diego J., Hartman, Joel D., Boyle, Gavin, Suc, Vincent, Bouchy, François, Deline, Adrien, Chaverot, Guillaume, Grieves, Nolan, Lendl, Monika, Suarez, Olga, Triaud, Amaury H. M. J., Crouzet, Nicolas, Dransfield, Georgina, Guillot, Tristan, Cloutier, Ryan, Barkaoui, Khalid, Schwarz, Rick P., Stockdale, Chris, Harris, Mallory, Mireles, Ismael, Evans, Phil, Mann, Andrew W., Ziegler, Carl, Dragomir, Diana, Villanueva, Steven, Mordasini, Christoph, Ricker, George, Vanderspek, Roland, Latham, David W., Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Vezie, Michael, Youngblood, Allison, Daylan, Tansu, Collins, Karen A., Caldwell, Douglas A., Ciardi, David R., Palle, Enric, and Murgas, Felipe

Subjects

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

Abstract

We report the discovery and orbital characterization of three new transiting warm giant planets. These systems were initially identified as presenting single transit events in the light curves generated from the full frame images of the Transiting Exoplanet Survey Satellite (TESS). Follow-up radial velocity measurements and additional light curves were used to determine the orbital periods and confirm the planetary nature of the candidates. The planets orbit slightly metal-rich late F- and early G-type stars. We find that TOI 4406b has a mass of $M_P$= 0.30 $\pm$ 0.04 $M_J$ , a radius of $R_P$= 1.00 $\pm$ 0.02 $R_J$ , and a low eccentricity orbit (e=0.15 $\pm$ 0.05) with a period of P= 30.08364 $\pm$ 0.00005 d . TOI 2338b has a mass of $M_P$= 5.98 $\pm$ 0.20 $M_J$ , a radius of $R_P$= 1.00 $\pm$ 0.01 $R_J$ , and a highly eccentric orbit (e= 0.676 $\pm$ 0.002 ) with a period of P= 22.65398 $\pm$ 0.00002 d . Finally, TOI 2589b has a mass of $M_P$= 3.50 $\pm$ 0.10 $M_J$ , a radius of $R_P$= 1.08 $\pm$ 0.03 $R_J$ , and an eccentric orbit (e = 0.522 $\pm$ 0.006 ) with a period of P= 61.6277 $\pm$ 0.0002 d . TOI 4406b and TOI 2338b are enriched in metals compared to their host stars, while the structure of TOI 2589b is consistent with having similar metal enrichment to its host star., Comment: 24 pages, 16 figures, accepted in AJ

Published

2023

8. Radial-velocity discovery of a second planet in the TOI-1338/BEBOP-1 circumbinary system

Author

Standing, Matthew R., Sairam, Lalitha, Martin, David V., Triaud, Amaury H. M. J., Correia, Alexandre C. M., Coleman, Gavin A. L., Baycroft, Thomas A., Kunovac, Vedad, Boisse, Isabelle, Cameron, Andrew Collier, Dransfield, Georgina, Faria, João P., Gillon, Michaël, Hara, Nathan C., Hellier, Coel, Howard, Jonathan, Lane, Ellie, Mardling, Rosemary, Maxted, Pierre F. L., Miller, Nicola J., Nelson, Richard P., Orosz, Jerome A., Pepe, Franscesco, Santerne, Alexandre, Sebastian, Daniel, Udry, Stéphane, and Welsh, William F.

Subjects

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

Abstract

We report the detection of a gas-giant planet in orbit around both stars of an eclipsing binary star system that also contains the smaller, inner transiting planet TOI-1338b. The new planet, called TOI-1338/BEBOP-1c, was discovered using radial-velocity data collected with the HARPS and ESPRESSO spectrographs. Our analysis reveals it is a $65.2~\rm{M_{\oplus}}$ circumbinary planet with a period of $215.5~$days. This is the first detection of a circumbinary planet using radial-velocity observations alone, and makes TOI-1338/BEBOP-1 only the second confirmed multiplanet circumbinary system to date. We do not detect the smaller inner transiting planet with radial-velocity data, and can place an upper limit on the inner planet's mass at $21.8~\mathrm{M}_\oplus$ with $99\%$ confidence. The inner planet is the first circumbinary planet amenable for atmospheric characterisation, using the James Webb Space Telescope., Comment: The Version of Record of this article is published in Nature Astronomy, and is available online at https://doi.org/10.1038/s41550-023-01948-4 Main: 14-pages, 4-Figures, 1-table. Supporting material: 48-pages, 12-figures, 4-tables

Published

2023

9. The EBLM project X. Benchmark masses, radii and temperatures for two fully convective M-dwarfs using K2

Author

Duck, Alison, Martin, David V., Gill, Sam, Armitage, Tayt, Martínez, Romy Rodríguez, Maxted, Pierre F. L., Sebastian, Daniel, Sethi, Ritika, Swayne, Matthew I., Cameron, Andrew Collier, Dransfield, Georgina, Gaudi, B. Scott, Gillon, Michael, Hellier, Coel, Kunovac, Vedad, Lovis, Christophe, McCormac, James, Pepe, Francesco A., Pollacco, Don, Sairam, Lalitha, Santerne, Alexandre, Ségransan, Damien, Standing, Matthew R., Southworth, John, Triaud, Amaury H. M. J., and Udry, Stephane

Subjects

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

Abstract

M-dwarfs are the most abundant stars in the galaxy and popular targets for exoplanet searches. However, their intrinsic faintness and complex spectra inhibit precise characterisation. We only know of dozens of M-dwarfs with fundamental parameters of mass, radius and effective temperature characterised to better than a few per cent. Eclipsing binaries remain the most robust means of stellar characterisation. Here we present two targets from the Eclipsing Binary Low Mass (EBLM) survey that were observed with K2: EBLM J0055-00 and EBLM J2217-04. Combined with HARPS and CORALIE spectroscopy, we measure M-dwarf masses with precisions better than 5%, radii better than 3% and effective temperatures on order 1%. However, our fits require invoking a model to derive parameters for the primary star. By investigating three popular models, we determine that the model uncertainty is of similar magnitude to the statistical uncertainty in the model fits. Therefore, whilst these can be considered benchmark M-dwarfs, we caution the community to consider model uncertainty when pushing the limits of precise stellar characterisation., Comment: 13 Pages, MNRAS accepted

Published

2022

10. TESS discovery of a sub-Neptune orbiting a mid-M dwarf TOI-2136

Author

Gan, Tianjun, Soubkiou, Abderahmane, Wang, Sharon X., Benkhaldoun, Zouhair, Mao, Shude, Artigau, Étienne, Fouqué, Pascal, Giacalone, Steven, Theissen, Christopher A., Aganze, Christian, Collins, Karen A., Shporer, Avi, Barkaoui, Khalid, Ghachoui, Mourad, Howell, Steve B., Lamman, Claire, Demangeon, Olivier D. S., Burdanov, Artem, Cadieux, Charles, Chouqar, Jamila, Collins, Kevin I., Cook, Neil J., Delrez, Laetitia, Demory, Brice-Olivier, Doyon, René, Dransfield, Georgina, Dressing, Courtney D., Ducrot, Elsa, Fan, Jiahao, Garcia, Lionel, Gill, Holden, Gillon, Michaël, Gnilka, Crystal L., Chew, Yilen Gómez Maqueo, Günther, Maximilian N., Henze, Christopher E., Huang, Chelsea X., Jehin, Emmanuel, Jensen, Eric L. N., Lin, Zitao, McCormac, James, Murray, Catriona A., Niraula, Prajwal, Pedersen, Peter P., Pozuelos, Francisco J., Queloz, Didier, Rackham, Benjamin V., Savel, Arjun B., Schanche, Nicole, Schwarz, Richard P., Sebastian, Daniel, Thompson, Samantha, Timmermans, Mathilde, Triaud, Amaury H. M. J., Vezie, Michael, Wells, Robert D., de Wit, Julien, Ricker, George R., Vanderspek, Roland, Latham, David W., Seager, Sara, Winn, Joshua N., and Jenkins, Jon M.

Subjects

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

Abstract

We present the discovery of TOI-2136b, a sub-Neptune planet transiting every 7.85 days a nearby M4.5V-type star, identified through photometric measurements from the TESS mission. The host star is located $33$ pc away with a radius of $R_{\ast} = 0.34\pm0.02\ R_{\odot}$, a mass of $0.34\pm0.02\ M_{\odot}$ and an effective temperature of $\rm 3342\pm100\ K$. We estimate its stellar rotation period to be $75\pm5$ days based on archival long-term photometry. We confirm and characterize the planet based on a series of ground-based multi-wavelength photometry, high-angular-resolution imaging observations, and precise radial velocities from CFHT/SPIRou. Our joint analysis reveals that the planet has a radius of $2.19\pm0.17\ R_{\oplus}$, and a mass measurement of $6.4\pm2.4\ M_{\oplus}$. The mass and radius of TOI2136b is consistent with a broad range of compositions, from water-ice to gas-dominated worlds. TOI-2136b falls close to the radius valley for low-mass stars predicted by the thermally driven atmospheric mass loss models, making it an interesting target for future studies of its interior structure and atmospheric properties., Comment: 19 pages, 15 figures, submitted to MNRAS

Published

2022

11. A Possible Alignment Between the Orbits of Planetary Systems and their Visual Binary Companions

Author

Christian, Sam, Vanderburg, Andrew, Becker, Juliette, Yahalomi, Daniel A., Pearce, Logan, Zhou, George, Collins, Karen A., Kraus, Adam L., Stassun, Keivan G., de Beurs, Zoe, Ricker, George R., Vanderspek, Roland K., Latham, David W., Winn, Joshua N., Seager, S., Jenkins, Jon M., Abe, Lyu, Agabi, Karim, Amado, Pedro J., Baker, David, Barkaoui, Khalid, Benkhaldoun, Zouhair, Benni, Paul, Berberian, John, Berlind, Perry, Bieryla, Allyson, Esparza-Borges, Emma, Bowen, Michael, Brown, Peyton, Buchhave, Lars A., Burke, Christopher J., Buttu, Marco, Cadieux, Charles, Caldwell, Douglas A., Charbonneau, David, Chazov, Nikita, Chimaladinne, Sudhish, Collins, Kevin I., Combs, Deven, Conti, Dennis M., Crouzet, Nicolas, de Leon, Jerome P., Deljookorani, Shila, Diamond, Brendan, Doyon, René, Dragomir, Diana, Dransfield, Georgina, Essack, Zahra, Evans, Phil, Fukui, Akihiko, Gan, Tianjun, Esquerdo, Gilbert A., Gillon, Michaël, Girardin, Eric, Guerra, Pere, Guillot, Tristan, Habich, Eleanor Kate K., Henriksen, Andreea, Hoch, Nora, Isogai, Keisuke I, Jehin, Emmanuël, Jensen, Eric L. N., Johnson, Marshall C., Livingston, John H., Kielkopf, John F., Kim, Kingsley, Kawauchi, Kiyoe, Krushinsky, Vadim, Kunzle, Veronica, Laloum, Didier, Leger, Dominic, Lewin, Pablo, Mallia, Franco, Massey, Bob, Mori, Mayuko, McLeod, Kim K., Mékarnia, Djamel, Mireles, Ismael, Mishevskiy, Nikolay, Tamura, Motohide, Murgas, Felipe, Narita, Norio, Naves, Ramon, Nelson, Peter, Osborn, Hugh P., Palle, Enric, Parviainen, Hannu, Plavchan, Peter, Pozuelos, Francisco J., Rabus, Markus, Relles, Howard M., López, Cristina Rodríguez, Quinn, Samuel N., Schmider, Francois-Xavier, Schlieder, Joshua E., Schwarz, Richard P., Shporer, Avi, Sibbald, Laurie, Srdoc, Gregor, Stibbards, Caitlin, Stickler, Hannah, Suarez, Olga, Stockdale, Chris, Tan, Thiam-Guan, Terada, Yuka, Triaud, Amaury, Tronsgaard, Rene, Waalkes, William C., Wang, Gavin, Watanabe, Noriharu, Wenceslas, Marie-Sainte, Wingham, Geof, Wittrock, Justin, and Ziegler, Carl

Subjects

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

Abstract

Astronomers do not have a complete picture of the effects of wide-binary companions (semimajor axes greater than 100 AU) on the formation and evolution of exoplanets. We investigate these effects using new data from Gaia EDR3 and the TESS mission to characterize wide-binary systems with transiting exoplanets. We identify a sample of 67 systems of transiting exoplanet candidates (with well-determined, edge-on orbital inclinations) that reside in wide visual binary systems. We derive limits on orbital parameters for the wide-binary systems and measure the minimum difference in orbital inclination between the binary and planet orbits. We determine that there is statistically significant difference in the inclination distribution of wide-binary systems with transiting planets compared to a control sample, with the probability that the two distributions are the same being 0.0037. This implies that there is an overabundance of planets in binary systems whose orbits are aligned with those of the binary. The overabundance of aligned systems appears to primarily have semimajor axes less than 700 AU. We investigate some effects that could cause the alignment and conclude that a torque caused by a misaligned binary companion on the protoplanetary disk is the most promising explanation., Comment: 30 pages, 19 figures, 2 csv files included in Arxiv source; accepted for publication in AJ

Published

2022

12. BEBOP III. Observations and an independent mass measurement of Kepler-16 (AB) b -- the first circumbinary planet detected with radial velocities

Author

Triaud, Amaury H. M. J., Standing, Matthew R., Heidari, Neda, Martin, David V., Boisse, Isabelle, Santerne, Alexandre, Correia, Alexandre C. M., Acuña, Lorana, Battley, Matthew, Bonfils, Xavier, Carmona, Andrés, Cameron, Andrew Collier, Cortés-Zuleta, Pía, Dransfield, Georgina, Dalal, Shweta, Deleuil, Magali, Delfosse, Xavier, Faria, João, Forveille, Thierry, Hara, Nathan C., Hébrard, Guillaume, Hoyer, Sergio, Kiefer, Flavien, Kunovac, Vedad, Maxted, Pierre F. L., Martioli, Eder, Miller, Nikki, Nelson, Richard P., Poveda, Mathilde, Rein, Hanno, Sairam, Lalitha, Udry, Stéphane, and Willett, Emma

Subjects

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

Abstract

The radial velocity method is amongst the most robust and most established means of detecting exoplanets. Yet, it has so far failed to detect circumbinary planets despite their relatively high occurrence rates. Here, we report velocimetric measurements of Kepler-16A, obtained with the SOPHIE spectrograph, at the Observatoire de Haute-Provence's 193cm telescope, collected during the BEBOP survey for circumbinary planets. Our measurements mark the first radial velocity detection of a circumbinary planet, independently determining the mass of Kepler-16~(AB)~b to be $0.313 \pm 0.039\,{\rm M}_{\rm Jup}$, a value in agreement with eclipse timing variations. Our observations demonstrate the capability to achieve photon-noise precision and accuracy on single-lined binaries, with our final precision reaching $\rm 1.5~m\,s^{-1}$ on the binary and planetary signals. Our analysis paves the way for more circumbinary planet detections using radial velocities which will increase the relatively small sample of currently known systems to statistically relevant numbers, using a method that also provides weaker detection biases. Our data also contain a long-term radial velocity signal, which we associate with the magnetic cycle of the primary star., Comment: under review at MNRAS, 7 pages, 4 figures, all RV data in appendix

Published

2021

13. BEBOP II: Sensitivity to sub-Saturn circumbinary planets using radial-velocities

Author

Standing, Matthew R., Triaud, Amaury H. M. J., Faria, João P., Martin, David V., Boisse, Isabelle, Correia, Alexandre C. M., Deleuil, Magali, Dransfield, Georgina, Gillon, Michaël, Hébrard, Guillaume, Hellier, Coel, Kunovac, Vedad, Maxted, Pierre F. L., Mardling, Rosemary, Santerne, Alexandre, Sairam, Lalitha, and Udry, Stéphane

Subjects

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

Abstract

BEBOP is a radial-velocity survey that monitors a sample of single-lined eclipsing binaries, in search of circumbinary planets by using high-resolution spectrographs. Here, we describe and test the methods we use to identify planetary signals within the BEBOP data, and establish how we quantify our sensitivity to circumbinary planets by producing detection limits. This process is made easier and more robust by using a diffusive nested sampler. In the process of testing our methods, we notice that contrary to popular wisdom, assuming circular orbits in calculating detection limits for a radial velocity survey provides over-optimistic detection limits by up to $40\%$ in semi-amplitude with implications for all radial-velocity surveys. We perform example analyses using three BEBOP targets from our Southern HARPS survey. We demonstrate for the first time a repeated ability to reach a residual root mean squared scatter of $3~\rm m.s^{-1}$ (after removing the binary signal), and find we are sensitive to circumbinary planets with masses down to that of Neptune and Saturn, for orbital periods up to $1000~\rm days$., Comment: 17 pages, 11 figures

Published

2021

14. NGTS clusters survey -- III: A low-mass eclipsing binary in the Blanco 1 open cluster spanning the fully convective boundary

Author

Smith, Gareth D., Gillen, Edward, Queloz, Didier, Hillenbrand, Lynne A., Acton, Jack S., Alves, Douglas R., Anderson, David R., Bayliss, Daniel, Briegal, Joshua T., Burleigh, Matthew R., Casewell, Sarah L., Delrez, Laetitia, Dransfield, Georgina, Ducrot, Elsa, Gill, Samuel, Gillon, Michaël, Goad, Michael R., Günther, Maximilian N., Henderson, Beth A., Jenkins, James S., Jehin, Emmanuël, Moyano, Maximiliano, Murray, Catriona A., Pedersen, Peter P., Sebastian, Daniel, Thompson, Samantha, Tilbrook, Rosanna H., Triaud, Amaury H. M. J., Vines, Jose I., and Wheatley, Peter J.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the discovery and characterisation of an eclipsing binary identified by the Next Generation Transit Survey in the $\sim$115 Myr old Blanco 1 open cluster. NGTS J0002-29 comprises three M dwarfs: a short-period binary and a companion in a wider orbit. This system is the first well-characterised, low-mass eclipsing binary in Blanco 1. With a low mass ratio, a tertiary companion and binary components that straddle the fully convective boundary, it is an important benchmark system, and one of only two well-characterised, low-mass eclipsing binaries at this age. We simultaneously model light curves from NGTS, TESS, SPECULOOS and SAAO, radial velocities from VLT/UVES and Keck/HIRES, and the system's spectral energy distribution. We find that the binary components travel on circular orbits around their common centre of mass in $P_{\rm orb} = 1.09800524 \pm 0.00000038$ days, and have masses $M_{\rm pri}=0.3978\pm 0.0033$ M$_{\odot}$ and $M_{\rm sec}=0.2245\pm 0.0018$ M$_{\odot}$, radii $R_{\rm pri}=0.4037\pm 0.0048$ R$_{\odot}$ and $R_{\rm sec}=0.2759\pm 0.0055$ R$_{\odot}$, and effective temperatures $T_{\rm pri}=3372\,^{+44}_{-37}$ K and $T_{\rm sec}=3231\,^{+38}_{-31}$ K. We compare these properties to the predictions of seven stellar evolution models, which typically imply an inflated primary. The system joins a list of 19 well-characterised, low-mass, sub-Gyr, stellar-mass eclipsing binaries, which constitute some of the strongest observational tests of stellar evolution theory at low masses and young ages., Comment: 21 pages, 9 figures. Accepted for publication in MNRAS

Published

2021

15. Populating the brown dwarf and stellar boundary: Five stars with transiting companions near the hydrogen-burning mass limit

Author

Grieves, Nolan, Bouchy, François, Lendl, Monika, Carmichael, Theron, Mireles, Ismael, Shporer, Avi, McLeod, Kim K., Collins, Karen A., Brahm, Rafael, Stassun, Keivan G., Gill, Sam, Bouma, Luke G., Guillot, Tristan, Cointepas, Marion, Santos, Leonardo A. Dos, Casewell, Sarah L., Jenkins, Jon M., Henning, Thomas, Nielsen, Louise D., Psaridi, Angelica, Udry, Stéphane, Ségransan, Damien, Eastman, Jason D., Zhou, George, Abe, Lyu, Agabi, Abelkrim, Charbonneau, David, Collins, Kevin I., Colon, Knicole D., Crouzet, Nicolas, Dransfield, Georgina, Evans, Phil, Goeke, Robert F., Hart, Rhodes, Irwin, Jonathan M., Jensen, Eric L. N., Jordán, Andrés, Kielkopf, John F., Latham, David W., Marie-Sainte, Wenceslas, Mékarnia, Djamel, Nelson, Peter, Quinn, Samuel N., Radford, Don J., Rodriguez, David R., Rowden, Pamela, Schmider, François-Xavier, Schwarz, Richard P., Smith, Jeffrey C., Stockdale, Chris, Suarez, Olga, Tan, Thiam-Guan, Triaud, Amaury H. M. J., Waalkes, William, and Wingham, Geof

Subjects

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

Abstract

We report the discovery of five transiting companions near the hydrogen-burning mass limit in close orbits around main sequence stars originally identified by the Transiting Exoplanet Survey Satellite (TESS) as TESS Objects of Interest (TOIs): TOI-148, TOI-587, TOI-681, TOI-746, and TOI-1213. Using TESS and ground-based photometry as well as radial velocities from the CORALIE, CHIRON, TRES, and FEROS spectrographs, we found the companions have orbital periods between 4.8 and 27.2 days, masses between 77 and 98 $\mathrm{M_{Jup}}$, and radii between 0.81 and 1.66 $\mathrm{R_{Jup}}$. These targets have masses near the uncertain lower limit of hydrogen core fusion ($\sim$73-96 $\mathrm{M_{Jup}}$), which separates brown dwarfs and low-mass stars. We constrained young ages for TOI-587 (0.2 $\pm$ 0.1 Gyr) and TOI-681 (0.17 $\pm$ 0.03 Gyr) and found them to have relatively larger radii compared to other transiting companions of a similar mass. Conversely we estimated older ages for TOI-148 and TOI-746 and found them to have relatively smaller companion radii. With an effective temperature of 9800 $\pm$ 200 K, TOI-587 is the hottest known main-sequence star to host a transiting brown dwarf or very low-mass star. We found evidence of spin-orbit synchronization for TOI-148 and TOI-746 as well as tidal circularization for TOI-148. These companions add to the population of brown dwarfs and very low-mass stars with well measured parameters ideal to test formation models of these rare objects, the origin of the brown dwarf desert, and the distinction between brown dwarfs and hydrogen-burning main sequence stars., Comment: 25 pages, 14 figures, Accepted by Astronomy & Astrophysics

Published

2021

16. Colour-magnitude diagrams of transiting Exoplanets -- III. A public code, nine strange planets, and the role of Phosphine

Author

Dransfield, Georgina and Triaud, Amaury H. M. J

Subjects

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

Abstract

Colour-Magnitude Diagrams provide a convenient way of comparing populations of similar objects. When well populated with precise measurements, they allow quick inferences to be made about the bulk properties of an astronomic object simply from its proximity on a diagram to other objects. We present here a Python toolkit which allows a user to produce colour-magnitude diagrams of transiting exoplanets, comparing planets to populations of ultra-cool dwarfs, of directly imaged exoplanets, to theoretical models of planetary atmospheres, and to other transiting exoplanets. Using a selection of near- and mid-infrared colour-magnitude diagrams, we show how outliers can be identified for further investigation, and how emerging sub-populations can be identified. Additionally, we present evidence that observed differences in the \textit{Spitzer}'s 4.5\mu m flux, between irradiated Jupiters, and field brown dwarfs, might be attributed to phosphine, which is susceptible to photolysis. The presence of phosphine in low irradiation environments may negate the need for thermal inversions to explain eclipse measurements. We speculate that the anomalously low 4.5\mu m flux flux of the nightside of HD 189733b and the daysides of GJ 436b and GJ 3470b might be caused by phosphine absorption. Finally, we use our toolkit to include \textit{Hubble} WFC3 spectra, creating a new photometric band called the `Water band' (\textit{W$_{JH}$}-band) in the process. We show that the colour index [\textit{W$_{JH}$-H}] can be used to constrain the C/O ratio of exoplanets, showing that future observations with \textit{JWST} and \textit{Ariel} will be able to distinguish these populations if they exist, and select members for future follow-up., Comment: Accepted for publication in MNRAS

Published

2020