Your search keyword '"Antoci, Victoria"' showing total 173 results

1. Variability and stellar pulsation incidence in Am/Fm stars using TESS and Gaia data

Author

Durfeldt-Pedros, Oliver, Antoci, Victoria, Smalley, Barry, Murphy, Simon, Posilek, Natalia, and Niemczura, Ewa

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Aims. We aim to study chemically peculiar Am and Fm stars, distinguished by their unique abundance patterns, which are crucial for studying mixing processes in intermediate-mass stars. These stars provide a window into the atomic diffusion in their stellar envelopes, the evolution-dependent changes in mixing, and the resulting effects on pulsation mechanisms. Methods. This study examines the pulsation characteristics of the Am/Fm star group. Our analysis encompasses 1276 stars (available as catalogues on GitHub), utilising data from TESS and Gaia and focusing on stars from the Renson catalogue. Results. In our sample, 51% (649 stars) display no variability, thus categorised as constant stars. Among the remaining, 25% (318 stars) are pulsating Am/Fm and {\rho} Puppis stars, including 20% (261 stars) that are exclusively Am/Fm stars. Additionally, 17% (210 stars) show variability indicative of binarity and/or rotational modulation and 7% (93 stars) are eclipsing binaries. Of the pulsating stars, 10% (32 stars) are {\gamma} Doradus type, 54% (172 stars) {\delta} Scuti type, and 36% (114 stars) are hybrids, underlining a diverse pulsational behaviour of Am/Fm stars. Conclusions. Our findings indicate that pulsating stars predominantly occupy positions near the red edge of the classical instability strip, allowing us to ascertain the incidence of pulsations in this stellar population., Comment: 14 pages, 12 figures Accepted A&A 19/08/2024 Stellar catalogues available online: https://github.com/Durfeldt/AmStars_Catalogues

Published

2024

2. Unresolved Rossby and gravity modes in 214 A and F stars showing rotational modulation

Author

Henriksen, Andreea I., Antoci, Victoria, Saio, Hideyuki, Grundahl, Frank, Kjeldsen, Hans, Van Reeth, Timothy, Bowman, Dominic M., Pápics, Péter I., De Cat, Peter, Krüger, Joachim, Andersen, M. Fredslund, and Pallé, P. L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Here we report an ensemble study of 214 A- and F-type stars observed by \textit{Kepler}, exhibiting the so-called \textit{hump and spike} periodic signal, explained by Rossby modes (r~modes) -- the \textit{hump} -- and magnetic stellar spots or overstable convective (OsC) modes -- the \textit{spike} -- respectively. We determine the power confined in the non-resolved hump features and find additional gravity~modes (g~modes) humps always occurring at higher frequencies than the spike. Furthermore, we derive projected rotational velocities from FIES, SONG and HERMES spectra for 28 stars and the stellar inclination angle for 89 stars. We find a strong correlation between the spike amplitude and the power in the r and g~modes, which suggests that both types of oscillations are mechanically excited by either stellar spots or OsC modes. Our analysis suggests that stars with a higher power in $m=1$ r~modes humps are more likely to also exhibit humps at higher azimuthal orders ($m$ = 2, 3, or 4). Interestingly, all stars that show g~modes humps are hotter and more luminous than the observed red edge of the $\delta$ Scuti instability strip, suggesting that either magnetic fields or convection in the outer layers could play an important role., Comment: 18 pages, 19 figures

Published

2023

3. Rotational modulation in A and F stars: Magnetic stellar spots or convective core rotation?

Author

Henriksen, Andreea I., Antoci, Victoria, Saio, Hideyuki, Cantiello, Matteo, Kjeldsen, Hans, Kurtz, Donald W., Murphy, Simon J., Mathur, Savita, García, Rafael A., and Santos, Ângela R. G.

Subjects

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

Abstract

The Kepler mission revealed a plethora of stellar variability in the light curves of many stars, some associated with magnetic activity or stellar oscillations. In this work, we analyse the periodic signal in 162 intermediate-mass stars, interpreted as Rossby modes and rotational modulation - the so-called \textit{hump \& spike} feature. We investigate whether the rotational modulation (\textit{spike}) is due to stellar spots caused by magnetic fields or due to Overstable Convective (OsC) modes resonantly exciting g~modes, with frequencies corresponding to the convective core rotation rate. Assuming that the spikes are created by magnetic spots at the stellar surface, we recover the amplitudes of the magnetic fields, which are in good agreement with theoretical predictions. Our data show a clear anti-correlation between the spike amplitudes and stellar mass and possibly a correlation with stellar age, consistent with the dynamo-generated magnetic fields theory in (sub)-surface convective layers. Investigating the harmonic behaviour, we find that for 125 stars neither of the two possible explanations can be excluded. While our results suggest that the dynamo-generated magnetic field scenario is more likely to explain the \textit{spike} feature, we assess further work is needed to distinguish between the two scenarios. One method for ruling out one of the two explanations is to directly observe magnetic fields in \textit{hump \& spike} stars. Another would be to impose additional constraints through detailed modelling of our stars, regarding the rotation requirement in the OsC mode scenario or the presence of a convective-core (stellar age)., Comment: 18 pages, 28 figures

Published

2023

4. Variability Catalog of Stars Observed During the TESS Prime Mission

Author

Fetherolf, Tara, Pepper, Joshua, Simpson, Emilie, Kane, Stephen R., Mocnik, Teo, English, John Edward, Antoci, Victoria, Huber, Daniel, Jenkins, Jon M., Stassun, Keivan, Twicken, Joseph D., Vanderspek, Roland, and Winn, Joshua N.

Subjects

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

Abstract

During its 2-year Prime Mission, TESS observed over 232,000 stars at a 2-min cadence across ~70% of the sky. These data provide a record of photometric variability across a range of astrophysically interesting time scales, probing stellar rotation, stellar binarity, and pulsations. We have analyzed the TESS 2-min light curves to identify periodic variability on timescales 0.01-13 days, and explored the results across various stellar properties. We have identified over 46,000 periodic variables with high confidence, and another 38,000 with moderate confidence. These light curves show differences in variability type across the HR diagram, with distinct groupings of rotational, eclipsing, and pulsational variables. We also see interesting patterns across period-luminosity space, with clear correlations between period and luminosity for high-mass pulsators, evolved stars, and contact binary systems, a discontinuity corresponding to the Kraft break, and a lower occurrence of periodic variability in main-sequence stars on timescales of 1.5 to 2 days. The variable stars identified in this work are cross-identified with several other variability catalogs, from which we find good agreement between the measured periods of variability. There are ~65,000 variable stars that are newly identified in this work, which includes rotation rates of low-mass stars, high-frequency pulsation periods for high-mass stars, and a variety of giant star variability., Comment: 29 pages, 17 figures, accepted to ApJS, catalog available: https://archive.stsci.edu/hlsp/tess-svc, data visualization tool: https://filtergraph.com/tessvariability

Published

2022

5. TOI-1518b: A Misaligned Ultra-hot Jupiter with Iron in its Atmosphere

Author

Cabot, Samuel H. C., Bello-Arufe, Aaron, Mendonça, João M., Tronsgaard, René, Wong, Ian, Zhou, George, Buchhave, Lars A., Fischer, Debra A., Stassun, Keivan G., Antoci, Victoria, Baker, David, Belinski, Alexander A., Benneke, Björn, Bouma, Luke G., Christiansen, Jessie L., Collins, Karen A., Goliguzova, Maria V., Hagey, Simone, Jenkins, Jon M., Jensen, Eric L. N., Kidwell Jr, Richard C., Laloum, Didier, Massey, Bob, McLeod, Kim K., Latham, David W., Morgan, Edward H., Ricker, George, Safonov, Boris S., Schlieder, Joshua E., Seager, Sara, Shporer, Avi, Smith, Jeffrey C., Srdoc, Gregor, Strakhov, Ivan A., Torres, Guillermo, Twicken, Joseph D., Vanderspek, Roland, Vezie, Michael, and Winn, Joshua N.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery of TOI-1518b -- an ultra-hot Jupiter orbiting a bright star $V = 8.95$. The transiting planet is confirmed using high-resolution optical transmission spectra from EXPRES. It is inflated, with $R_p = 1.875\pm0.053\,R_{\rm J}$, and exhibits several interesting properties, including a misaligned orbit (${240.34^{+0.93}_{-0.98}}$ degrees) and nearly grazing transit ($b =0.9036^{+0.0061}_{-0.0053}$). The planet orbits a fast-rotating F0 host star ($T_{\mathrm{eff}} \simeq 7300$ K) in 1.9 days and experiences intense irradiation. Notably, the TESS data show a clear secondary eclipse with a depth of $364\pm28$ ppm and a significant phase curve signal, from which we obtain a relative day-night planetary flux difference of roughly 320 ppm and a 5.2$\sigma$ detection of ellipsoidal distortion on the host star. Prompted by recent detections of atomic and ionized species in ultra-hot Jupiter atmospheres, we conduct an atmospheric cross-correlation analysis. We detect neutral iron (${5.2\sigma}$), at $K_p = 157^{+68}_{-44}$ km s$^{-1}$ and $V_{\rm sys} = -16^{+2}_{-4}$ km s$^{-1}$, adding another object to the small sample of highly irradiated gas-giant planets with Fe detections in transmission. Detections so far favor particularly inflated gas giants with radii $\gtrsim 1.78\,R_{\rm J}$; although this may be due to observational bias. With an equilibrium temperature of $T_{\rm eq}=2492\pm38$ K and a measured dayside brightness temperature of $3237\pm59$ K (assuming zero geometric albedo), TOI-1518b is a promising candidate for future emission spectroscopy to probe for a thermal inversion., Comment: 25 pages, 11 figures, accepted to AJ

Published

2021

6. TOI-1431b/MASCARA-5b: A Highly Irradiated Ultra-Hot Jupiter Orbiting One of the Hottest & Brightest Known Exoplanet Host Stars

Author

Addison, Brett Christopher, Knudstrup, Emil, Wong, Ian, Hebrard, Guillaume, Dorval, Patrick, Snellen, Ignas, Albrecht, Simon, Bello-Arufe, Aaron, Almenara, Jose-Manuel, Boisse, Isabelle, Bonfils, Xavier, Dalal, Shweta, Demangeon, Olivier, Hoyer, Sergio, Kiefer, Flavien, Santos, N. C., Nowak, Grzegorz, Luque, Rafael, Stangret, Monika, Palle, Enric, Tronsgaard, Rene, Antoci, Victoria, Buchhave, Lars A., Gunther, Maximilian N., Daylan, Tansu, Murgas, Felipe, Parviainen, Hannu, Esparza-Borges, Emma, Crouzet, Nicolas, Narita, Norio, Fukui, Akihiko, Kawauchi, Kiyoe, Watanabe, Noriharu, Rabus, Markus, Johnson, Marshall C., Otten, Gilles P. P. L., Talens, Geert Jan, Cabot, Samuel H. C., Fischer, Debra A., Grundahl, Frank, Andersen, Mads Fredslund, Jessen-Hanse, Jens, Palle, Pere, Shporer, Avi, Ciardi, David R., Clark, Jake T., Wittenmyer, Robert A., Wright, Duncan J., Horner, Jonathan, Collins, Karen A., Jensen, Eric L. N., Kielkopf, John F., Schwarz, Richard P., Srdoc, Gregor, Yilmaz, Mesut, Senavci, Hakan Volkan, Diamond, Brendan, Harbeck, Daniel, Komacek, Thaddeus D., Smith, Jeffrey C., Wang, Songhu, Eastman, Jason D., Stassun, Keivan G., Latham, David W., Vanderspek, Roland, Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Louie, Dana R., Bouma, Luke G., Twicken, Joseph D., Levine, Alan M., and McLean, Brian

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present the discovery of a highly irradiated and moderately inflated ultra-hot Jupiter, TOI-1431b/MASCARA-5b (HD 201033b), first detected by NASA's Transiting Exoplanet Survey Satellite mission (TESS) and the Multi-site All-Sky CAmeRA (MASCARA). The signal was established to be of planetary origin through radial velocity measurements obtained using SONG, SOPHIE, FIES, NRES, and EXPRES, which show a reflex motion of $K=294.1\pm1.1$ m s$^{-1}$. A joint analysis of the TESS and ground-based photometry and radial velocity measurements reveals that TOI-1431b has a mass of $M_{p}=3.12\pm0.18$ $\rm{M_J}$ ($990\pm60$ M$_{\oplus}$), an inflated radius of $R_{p}=1.49\pm0.05$ $\rm{R_J}$ ($16.7\pm0.6$ R$_{\oplus}$), and an orbital period of $P=2.650237\pm0.000003$ d. Analysis of the spectral energy distribution of the host star reveals that the planet orbits a bright ($\mathrm{V}=8.049$ mag) and young ($0.29^{+0.32}_{-0.19}$ Gyr) Am type star with $T_{\rm eff}=7690^{+400}_{-250}$ $\rm{K}$, resulting in a highly irradiated planet with an incident flux of $\langle F \rangle=7.24^{+0.68}_{-0.64}\times$10$^9$ erg s$^{-1}$ cm$^{-2}$ ($5300^{+500}_{-470}\mathrm{S_{\oplus}}$) and an equilibrium temperature of $T_{eq}=2370\pm70$ K. TESS photometry also reveals a secondary eclipse with a depth of $127^{+4}_{-5}$ppm as well as the full phase curve of the planet's thermal emission in the red-optical. This has allowed us to measure the dayside and nightside temperature of its atmosphere as $T_\mathrm{day}=3004\pm64$ K and $T_\mathrm{night}=2583\pm63$ K, the second hottest measured nightside temperature. The planet's low day/night temperature contrast ($\sim$420 K) suggests very efficient heat transport between the dayside and nightside hemispheres., Comment: Accepted for publication in the Astronomical Journal. 39 pages, 18 figures, and 4 tables

Published

2021

7. Precise radial velocities of giant stars XV. Mysterious nearly periodic radial velocity variations in the eccentric binary $\epsilon$ Cygni

Author

Heeren, Paul, Reffert, Sabine, Trifonov, Trifon, Wong, Ka Ho, Lee, Man Hoi, Lillo-Box, Jorge, Quirrenbach, Andreas, Arentoft, Torben, Albrecht, Simon, Grundahl, Frank, Andersen, Mads Fredslund, Antoci, Victoria, and Pallé, Pere L.

Subjects

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

Abstract

Using the Hamilton Echelle Spectrograph at Lick Observatory, we have obtained precise radial velocities (RVs) of a sample of 373 G- and K-giant stars over more than 12 years, leading to the discovery of several single and multiple planetary systems. The RVs of the long-period (~53 years) spectroscopic binary $\epsilon$ Cyg (HIP 102488) are found to exhibit additional regular variations with a much shorter period (~291 days). We intend to improve the orbital solution of the $\epsilon$ Cyg system and attempt to identify the cause of the nearly periodic shorter period variations, which might be due to an additional substellar companion. We used precise RV measurements of the K-giant star $\epsilon$ Cyg from Lick Observatory, in combination with a large set of RVs collected more recently with the SONG telescope, as well as archival data sets. Our Keplerian model to the RVs characterizes the orbit of the spectroscopic binary to higher precision than achieved previously, resulting in a semi-major axis of $a = 15.8 \mathrm{AU}$, an eccentricity of $e = 0.93$, and a minimum mass of the secondary of $m \sin i = 0.265 M_\odot$. Additional short-period RV variations closely resemble the signal of a Jupiter-mass planet orbiting the evolved primary component with a period of $291 \mathrm{d}$, but the period and amplitude of the putative orbit change strongly over time. Furthermore, in our stability analysis of the system, no stable orbits could be found in a large region around the best fit. Both of these findings deem a planetary cause of the RV variations unlikely. Most of the investigated alternative scenarios, such as an hierarchical triple or stellar spots, also fail to explain the observed variability convincingly. Due to its very eccentric binary orbit, it seems possible, however, that $\epsilon$ Cyg could be an extreme example of a heartbeat system., Comment: 17 pages, 13 figures, accepted to A&A

Published

2021

8. Asteroseismic masses of four evolved planet-hosting stars using SONG and TESS: resolving the retired A-star mass controversy

Author

Malla, Sai Prathyusha, Stello, Dennis, Huber, Daniel, Montet, Benjamin T., Bedding, Timothy R., Andersen, Mads Fredslund, Grundahl, Frank, Jessen-Hansen, Jens, Hey, Daniel R., Palle, Pere L., Deng, Licai, Zhang, Chunguang, Chen, Xiaodian, Lloyd, James, and Antoci, Victoria

Subjects

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

Abstract

The study of planet occurrence as a function of stellar mass is important for a better understanding of planet formation. Estimating stellar mass, especially in the red giant regime, is difficult. In particular, stellar masses of a sample of evolved planet-hosting stars based on spectroscopy and grid-based modelling have been put to question over the past decade with claims they were overestimated. Although efforts have been made in the past to reconcile this dispute using asteroseismology, results were inconclusive. In an attempt to resolve this controversy, we study four more evolved planet-hosting stars in this paper using asteroseismology, and we revisit previous results to make an informed study of the whole ensemble in a self-consistent way. For the four new stars, we measure their masses by locating their characteristic oscillation frequency, $\mathrm{\nu}_{\mathrm{max}}$, from their radial velocity time series observed by SONG. For two stars, we are also able to measure the large frequency separation, $\mathrm{\Delta\nu}$, helped by extended SONG single-site and dual-site observations and new TESS observations. We establish the robustness of the $\mathrm{\nu}_{\mathrm{max}}$-only-based results by determining the stellar mass from $\mathrm{\Delta\nu}$, and from both $\mathrm{\Delta\nu}$ and $\mathrm{\nu}_{\mathrm{max}}$. We then compare the seismic masses of the full ensemble of 16 stars with the spectroscopic masses from three different literature sources. We find an offset between the seismic and spectroscopic mass scales that is mass-dependent, suggesting that the previously claimed overestimation of spectroscopic masses only affects stars more massive than about 1.6 M$_\mathrm{\odot}$., Comment: 13 pages, 12 figures, Accepted for publication in the Main Journal of MNRAS

Published

2020

9. Sun-like Oscillations in the Population II giant HD 122563

Author

Creevey, Orlagh, Thévenin, Frédéric, Grundahl, Frank, Corsaro, Enrico, Andersen, Mads F., Antoci, Victoria, Bigot, Lionel, Collet, Remo, Pallé, Pere L., Pichon, Bernard, and Salabert, David

Subjects

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

Abstract

We have been monitoring the metal-poor Population II giant, HD 122563, for radial velocity variations since 2016 using the SONG telescope on Tenerife. We have detected the global seismic quantity, numax, which provides information related to the stellar parameters. By combining these data with complementary data, we derive a new precise surface gravity, radius and distance to the star. Our results are corroborated by using the parallax from Gaia DR2. We present these results and some of their implications., Comment: Proceedings of the French Astronomy Society Meeting, SF2A, June 2019; v2: typo in reported numax in Table, authors corrected

Published

2020

10. Very regular high-frequency pulsation modes in young intermediate-mass stars

Author

Bedding, Timothy R., Murphy, Simon J., Hey, Daniel R., Huber, Daniel, Li, Tanda, Smalley, Barry, Stello, Dennis, White, Timothy R., Ball, Warrick H., Chaplin, William J., Colman, Isabel L., Fuller, Jim, Gaidos, Eric, Harbeck, Daniel R., Hermes, J. J., Holdsworth, Daniel L., Li, Gang, Li, Yaguang, Mann, Andrew W., Reese, Daniel R., Sekaran, Sanjay, Yu, Jie, Antoci, Victoria, Bergmann, Christoph, Brown, Timothy M., Howard, Andrew W., Ireland, Michael J., Isaacson, Howard, Jenkins, Jon M., Kjeldsen, Hans, McCully, Curtis, Rabus, Markus, Rains, Adam D., Ricker, George R., Tinney, Christopher G., and Vanderspek, Roland K.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Asteroseismology is a powerful tool for probing the internal structures of stars by using their natural pulsation frequencies. It relies on identifying sequences of pulsation modes that can be compared with theoretical models, which has been done successfully for many classes of pulsators, including low-mass solar-type stars, red giants, high-mass stars and white dwarfs. However, a large group of pulsating stars of intermediate mass--the so-called delta Scuti stars--have rich pulsation spectra for which systematic mode identification has not hitherto been possible. This arises because only a seemingly random subset of possible modes are excited, and because rapid rotation tends to spoil the regular patterns. Here we report the detection of remarkably regular sequences of high-frequency pulsation modes in 60 intermediate-mass main-sequence stars, allowing definitive mode identification. Some of these stars have space motions that indicate they are members of known associations of young stars, and modelling of their pulsation spectra confirms that these stars are indeed young., Comment: published in Nature https://www.nature.com/articles/s41586-020-2226-8

Published

2020

11. Gravity-mode period spacings and near-core rotation rates of 611 $\gamma$ Doradus stars with \textit{Kepler}

Author

Li, Gang, Van Reeth, Timothy, Bedding, Timothy R., Murphy, Simon J., Antoci, Victoria, Ouazzani, Rhita-Maria, and Barbara, Nicholas H.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report our survey of $\gamma$\,Doradus stars from the 4-yr \textit{Kepler} mission. These stars pulsate mainly in g modes and r modes, showing period-spacing patterns in the amplitude spectra. The period-spacing patterns are sensitive to the chemical composition gradients and the near-core rotation, hence they are essential for understanding the stellar interior. We identified period-spacing patterns in 611 $\gamma$\,Dor stars. Almost every star pulsates in dipole g modes, while about 30\% of stars also show clear patterns for quadrupole g modes and 16\% of stars present r mode patterns. We measure periods, period spacings, and the gradient of the period spacings. These three observables guide the mode identifications and can be used to estimate the near-core rotation rate. We find many stars are hotter and show longer period-spacing patterns than theory. Using the Traditional Approximation of Rotation (TAR), we inferred the asymptotic spacings, the near-core rotation rates, and the radial orders of the g and r modes. Most stars have a near-core rotation rate around $1$\,$\mathrm{c/d}$ and an asymptotic spacing around 4000\,s. We also find that many stars rotate more slowly than predicted by theory for unclear reasons. 11 stars show rotational splittings with fast rotation rates. We compared the observed slope--rotation relation with the theory and find a large spread. We detected rotational modulations in 58 stars and used them to derive the core-to-surface rotation ratios. The interiors rotate faster than the cores in most stars, but by no more than 5\%., Comment: Accepted by MNRAS

Published

2019

12. The Kepler Smear Campaign: Light curves for 102 Very Bright Stars

Author

Pope, Benjamin J. S., Davies, Guy R., Hawkins, Keith, White, Timothy R., Stokholm, Amalie, Bieryla, Allyson, Latham, David W., Lucey, Madeline, Aerts, Conny, Aigrain, Suzanne, Antoci, Victoria, Bedding, Timothy R., Bowman, Dominic M., Caldwell, Douglas A., Chontos, Ashley, Esquerdo, Gilbert A., Huber, Daniel, Jofre, Paula, Murphy, Simon J., van Reeth, Timothy, Aguirre, Victor Silva, and Yu, Jie

Subjects

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

Abstract

We present the first data release of the Kepler Smear Campaign, using collateral 'smear' data obtained in the Kepler four-year mission to reconstruct light curves of 102 stars too bright to have been otherwise targeted. We describe the pipeline developed to extract and calibrate these light curves, and show that we attain photometric precision comparable to stars analyzed by the standard pipeline in the nominal Kepler mission. In this paper, aside from publishing the light curves of these stars, we focus on 66 red giants for which we detect solar-like oscillations, characterizing 33 of these in detail with spectroscopic chemical abundances and asteroseismic masses as benchmark stars. We also classify the whole sample, finding nearly all to be variable, with classical pulsations and binary effects. All source code, light curves, TRES spectra, and asteroseismic and stellar parameters are publicly available as a Kepler legacy sample., Comment: 35 pages, accepted ApJS

Published

2019

13. Period spacings of $\gamma$ Doradus pulsators in the \textit{Kepler} field: Rossby and gravity modes in 82 stars

Author

Li, Gang, Van Reeth, Timothy, Bedding, Timothy R., Murphy, Simon J., and Antoci, Victoria

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Rossby modes are the oscillations in a rotating fluid, whose restoring force is the Coriolis force. They provide an additional diagnostic to understand the rotation of stars, which complicates asteroseismic modelling. We report 82 $\gamma$\,Doradus stars for which clear period spacing patterns of both gravity and Rossby modes have been detected. The period spacings of both show a quasi-linear relation with the pulsation period but the slope is negative for the gravity modes and positive for the Rossby modes. Most Rossby modes have $k=-2, m=-1$. For only one star a series of $k=-1,m=-1$ modes is seen. For each pattern, the mean pulsation period, the mean period spacing, and the slope are measured. We find that the slope correlates with the mean period for Rossby mode patterns. The traditional approximation of rotation is used to measure the near-core rotation rate, assuming the star rotates rigidly. We report the near-core rotation rates, the asymptotic period spacings, and the radial orders of excited modes of these 82 main-sequence stars. The near-core rotation rates lie between $0.6\,\mathrm{d^{-1}}$ and $2.3\,\mathrm{d^{-1}}$. Six stars show surface rotation modulations, among which only KIC\,3341457 shows differential rotation while the other five stars have uniform rotations. The radial orders of excited modes show different distributions for the dipole and quadrupole gravity modes versus the Rossby modes., Comment: Accepted by MNRAS. There is an online-only appendix. Please find it from MNRAS webpage

Published

2019

14. First detection of oscillations in the Halo giant HD 122563: validation of seismic scaling relations and new fundamental parameters

Author

Creevey, Orlagh, Grundahl, Frank, Thévenin, Frédéric, Corsaro, Enrico, Pallé, P. L., Salabert, David, Pichon, Bernard, Collet, Remo, Bigot, Lionel, Antoci, Victoria, and Andersen, Mads F.

Subjects

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

Abstract

The nearby metal-poor giant HD122563 is an important astrophysical laboratory for which to test stellar atmospheric and interior physics. It is also a benchmark star for which to calibrate methods to apply to large scale surveys. Recently it has been remeasured using various methodologies given the new high precision instruments at our disposal. However, inconsistencies in the observations and models have been found. In order to better characterise this star we have been measuring its radial velocities since 2016 using the Hertzsprung telescope (SONG network node). In this work we report the first detections of sun-like oscillations in this star, and to our knowledge, a detection in the most metal-poor giant to date. We apply the classical seismic scaling relation to derive a new surface gravity of $\log g_{\nu} = 1.39 \pm 0.01$ dex. Constraints on the mass imposed by its PopII giant classification then yield a radius of $30.8 \pm 1.0$ R$_{\odot}$. By coupling this with recent interferometric measurements we infer a distance to the star of 306 $\pm$ 9 pc. Data from the Gaia mission corroborates the distance hypothesis ($d_{\rm GDR2}$ = 290 $\pm$ 5 pc), and thus the updated fundamental parameters. We confirm the validity of the seismic scaling relation without corrections for surface gravity in metal-poor and evolved star regimes. The small discrepancy of 0.04 dex reduces to 0.02 dex by applying corrections to the scaling relations. The new constraints on the HR diagram ($L_{\odot} = 381 \pm 26$) reduce the disagreement between the stellar parameters and evolution models, however, a discrepancy still exists. Fine-tuned stellar evolution calculations show that this can be reconciled by changing the mixing-length parameter by an amount (--0.35) that is in agreement with predictions from recent 3D simulations and empirical results., Comment: Accepted for publication in A&A

Published

2019

15. Asteroseismology of the Hyades red giant and planet host epsilon Tauri

Author

Arentoft, Torben, Grundahl, Frank, White, Timothy R., Slumstrup, Ditte, Handberg, Rasmus, Lund, Mikkel N., Brogaard, Karsten, Andersen, Mads F., Aguirre, Victor Silva, Zhang, Chunguang, Chen, Xiaodian, Yan, Zhengzhou, Pope, Benjamin J. S., Huber, Daniel, Kjeldsen, Hans, Christensen-Dalsgaard, Jørgen, Jessen-Hansen, Jens, Antoci, Victoria, Frandsen, Søren, Bedding, Timothy R., Palle, Pere L., Garcia, Rafael A., Deng, Licai, Hon, Marc, Stello, Dennis, and Jørgensen, Uffe G.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Asteroseismic analysis of solar-like stars allows us to determine physical parameters such as stellar mass, with a higher precision compared to most other methods. Even in a well-studied cluster such as the Hyades, the masses of the red giant stars are not well known, and previous mass estimates are based on model calculations (isochrones). The four known red giants in the Hyades are assumed to be clump (core-helium-burning) stars based on their positions in colour-magnitude diagrams, however asteroseismology offers an opportunity to test this assumption. Using asteroseismic techniques combined with other methods, we aim to derive physical parameters and the evolutionary stage for the planet hosting star epsilon Tau, which is one of the four red giants located in the Hyades. We analysed time-series data from both ground and space to perform the asteroseismic analysis. By combining high signal-to-noise (S/N) radial-velocity data from the ground-based SONG network with continuous space-based data from the revised Kepler mission K2, we derive and characterize 27 individual oscillation modes for epsilon Tau, along with global oscillation parameters such as the large frequency separation and the ratio between the amplitude of the oscillations measured in radial velocity and intensity as a function of frequency. The latter has been measured previously for only two stars, the Sun and Procyon. Combining the seismic analysis with interferometric and spectroscopic measurements, we derive physical parameters for epsilon Tau, and discuss its evolutionary status., Comment: 13 pages, 13 figures, 4 tables, accepted for publication in Astronomy & Astrophysics

Published

2019

16. Period spacings of $\gamma$ Doradus pulsators in the Kepler field: detection methods and application to 22 slow rotators

Author

Li, Gang, Bedding, Timothy R., Murphy, Simon J., Van Reeth, Timothy, Antoci, Victoria, and Ouazzani, Rhita-Maria

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

In $\gamma$ Doradus stars, the g-mode period spacing shows an approximately linear relation with period. The slope is a new asteroseismic diagnostic, related to the rotation rate and the azimuthal order $m$. We report two automated methods, the `moving-window Fourier transform' and the `cross-correlation', to detect and measure the period spacings based on four-year light curves from the \textit{Kepler} satellite. The results show that the cross-correlation method performs better at detecting the period spacings and their slopes. In this paper, we apply our method to 22 $\gamma$ Dor stars with g-mode multiplets split by rotation. The rotation periods are similar to the g-mode period spacings, causing the multiplets to overlap. To clarify the overlapping patterns, we use the \'echelle diagram and introduce a `copy-shift' diagram to discern and measure the splittings. The first observational relation between slopes and splittings is shown. The slope deviates from zero when the splitting increases, as the theory predicts. We found that what appears to be rotational splittings in two stars is in fact caused by two nearly-identical overlapping patterns from binaries., Comment: 38 pages, 66 figures, Accepted by MNRAS

Published

2018

17. CUBESPEC: Low-cost space-based astronomical spectroscopy

Author

Raskin, Gert, Delabie, Tjorven, De Munter, Wim, Sana, Hugues, Vandenbussche, Bart, Vandoren, Bram, Antoci, Victoria, Kjeldsen, Hans, Karoff, Christoffer, de Koter, Alex, Désert, Jean-Michel, Mladenov, Tom, and Vandepitte, Dirk

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

CubeSats are routinely used for low-cost photometry from space. Space-borne spectroscopy, however, is still the exclusive domain of much larger platforms. Key astrophysical questions in e.g. stellar physics and exoplanet research require uninterrupted spectral monitoring from space over weeks or months. Such monitoring of individual sources is unfortunately not affordable with these large platforms. With CUBESPEC we plan to offer the astronomical community a low-cost CubeSat solution for near-UV/optical/near-IR spectroscopy that enables this type of observations. CUBESPEC is a generic spectrograph that can be configured with minimal hardware changes to deliver both low resolution (R=100) with very large spectral coverage (200-1000nm), as well as high resolution (R=30,000) over a selected wavelength range. It is built around an off-axis Cassegrain telescope and a slit spectrograph with configurable dispersion elements. CUBESPEC will use a compact attitude determination and control system for coarse pointing of the entire spacecraft, supplemented with a fine-guidance system using a fast steering mirror to center the source on the spectrograph slit and to cancel out satellite jitter. An extremely compact optical design allows us to house this instrument in a 6U CubeSat with a volume of only 10x20x30cm$^{3}$, while preserving a maximized entrance pupil of ca. 9x19cm$^{2}$. In this contribution, we give an overview of the CUBESPEC project, discuss its most relevant science cases, and present the design of the instrument., Comment: SPIE Astronomical Telescopes + Instrumentation conference proceedings, Austin 2018

Published

2018

18. Comparing the asteroseismic properties of pulsating pre-extremely low mass white dwarf and delta Scuti stars

Author

Arias, Julieta P. Sanchez, Romero, Alejandra D., Corsico, Alejandro H., Pelisoli, Ingrid, Antoci, Victoria, Kepler, S. O., Althaus, Leandro G., and Corti, Mariela A.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Pulsating extremely low-mass pre-white dwarf stars (pre-ELMV), with masses between ~0.15 Msun and ~0.30 Msun, constitute a new class of variable stars showing g- and possibly p-mode pulsations with periods between 320 and 6000 s, while main sequence delta Scuti stars, with masses between 1.2-2.5 Msun, pulsate in low-order g and p modes with periods in the range [700-28800] s. Interestingly enough, the instability strips of pre-ELM white dwarf and delta Scuti stars nearly overlap in the Teff vs. log g diagram, leading to a degeneracy when spectroscopy is the only tool to classify the stars and pulsation periods only are considered. We employ adiabatic and non-adiabatic pulsation for models of pre-ELM and delta Scuti stars, and compare their pulsation periods, period spacings and rates of period change. We found substantial differences in the periods spacing of delta Scuti and pre-ELM white dwarf models. Even when the same period range is observed, the modes have distinctive signature in the period spacing and period difference values. For instance, the mean period difference of p- modes of consecutive radial orders for delta Scuti model are at least four times longer than the mean period spacing for the pre-ELM white dwarf model in the period range [2000 - 4600] s. In addition, the rate of period change is two orders of magnitudes larger for the pre-ELM white dwarfs compared to delta Scuti stars. In addition, we also report the discovery of a new variable star, SDSSJ075738.94+144827.50, located in the region of the Teff vs. log g diagram where these two kind of stars coexist. The characteristic spacing between modes of consecutive radial orders (p as well as g modes) and the large differences found in the rates of period change for delta Scuti and pre-ELM white dwarf stars suggest that asteroseismology can be employed to discriminate between these two groups of variable stars., Comment: accepted for publication in Astronomy & Astrophysics

Published

2018

19. Aldebaran b's temperate past uncovered in planet search data

Author

Farr, Will M., Pope, Benjamin J. S., Davies, Guy R., North, Thomas S. H., White, Timothy R., Barrett, Jim W., Miglio, Andrea, Lund, Mikkel N., Antoci, Victoria, Andersen, Mads Fredslund, Grundahl, Frank, and Huber, Daniel

Subjects

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

Abstract

The nearby red giant Aldebaran is known to host a gas giant planetary companion from decades of ground-based spectroscopic radial velocity measurements. Using Gaussian Process-based Continuous Auto-Regressive Moving Average (CARMA) models, we show that these historic data also contain evidence of acoustic oscillations in the star itself, and verify this result with further dedicated ground-based spectroscopy and space-based photometry with the Kepler Space Telescope. From the frequency of these oscillations we determine the mass of Aldebaran to be $1.16 \pm 0.07 \, M_\odot$, and note that this implies its planet will have been subject to insolation comparable to the Earth for some of the star's main sequence lifetime. Our approach to sparse, irregularly sampled time series astronomical observations has the potential to unlock asteroseismic measurements for thousands of stars in archival data, and push to lower-mass planets around red giant stars., Comment: 24 pages, 7 figures (including appendices); submitted to ApJL; paper text, figures, data, and code at https://github.com/farr/Aldebaran

Published

2018

20. Theory and evidence of global Rossby waves in upper main-sequence stars: r-mode oscillations in many Kepler stars

Author

Saio, Hideyuki, Kurtz, Donald W., Murphy, Simon, Antoci, Victoria L., and Lee, Umin

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Asteroseismic inference from pressure modes (p modes) and buoyancy, or gravity, modes (g modes) is ubiquitous for stars across the Hertzsprung--Russell diagram. Until now, however, discussion of r modes (global Rossby waves) has been rare. Here we derive the expected frequency ranges of r modes in the observational frame by considering the visibility of these modes. We find that the frequencies of r modes of azimuthal order $m$ appear as groups at slightly lower frequency than $m$ times the rotation frequency. Comparing the visibility curves for r modes with Fourier amplitude spectra of Kepler light curves of upper main-sequence B, A and F stars, we find that r modes are present in many $\gamma$ Dor stars (as first discovered by Van Reeth et al. 2016), spotted stars, and so-called Heartbeat stars, which are highly eccentric binary stars. We also find a signature of r modes in a frequently bursting Be star observed by Kepler. In the amplitude spectra of moderately to rapidly rotating $\gamma$ Dor stars, r-mode frequency groups appear at lower frequency than prograde g-mode frequency groups, while in the amplitude spectra of spotted early A to B stars, groups of symmetric (with respect to the equator) r-mode frequencies appear just below the frequency of a structured peak that we suggest represents an approximate stellar rotation rate. In many Heartbeat stars, a group of frequencies can be fitted with symmetric $m=1$ r modes, which can be used to obtain rotation frequencies of these stars., Comment: 15 pages, 16 figures; accepted for publication in MNRAS

Published

2017

21. The Age and Distance of the Kepler Open Cluster NGC 6811 from an Eclipsing Binary, Turnoff Star Pulsation, and Giant Asteroseismology

Author

Sandquist, Eric L., Jessen-Hansen, J., Shetrone, Matthew D., Brogaard, Karsten, Meibom, Soren, Leitner, Marika, Stello, Dennis, Bruntt, Hans, Antoci, Victoria, Orosz, Jerome A., Grundahl, Frank, and Frandsen, Soren

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the analysis of an eccentric, partially eclipsing long-period ($P=19.23$ d) binary system KIC 9777062 that contains main sequence stars near the turnoff of the intermediate age open cluster NGC 6811. The primary is a metal-lined Am star with a possible convective blueshift to its radial velocities, and one star (probably the secondary) is likely to be a $\gamma$ Dor pulsator. The component masses are $1.603\pm0.006$(stat.)$\pm0.016$(sys.) and $1.419\pm0.003\pm0.008 M_\odot$, and the radii are $1.744\pm0.004\pm0.002$ and $1.544\pm0.002\pm0.002 R_\odot$. The isochrone ages of the stars are mildly inconsistent: the age from the mass-radius combination for the primary ($1.05\pm0.05\pm0.09$ Gyr, where the last quote was systematic uncertainty from models and metallicity) is smaller than that from the secondary ($1.21\pm0.05\pm0.15$ Gyr) and is consistent with the inference from the color-magnitude diagram ($1.00\pm0.05$ Gyr). We have improved the measurements of the asteroseismic parameters $\Delta \nu$ and $\nu_{\rm max}$ for helium-burning stars in the cluster. The masses of the stars appear to be larger (or alternately, the radii appear to be smaller) than predicted from isochrones using the ages derived from the eclipsing stars. The majority of stars near the cluster turnoff are pulsating stars: we identify a sample of 28 $\delta$ Sct, 15 $\gamma$ Dor, and 5 hybrid types. We used the period-luminosity relation for high-amplitude $\delta$ Sct stars to fit the ensemble of the strongest frequencies for the cluster members, finding $(m-M)_V = 10.37\pm0.03$. This is larger than most previous determinations, but smaller than values derived from the eclipsing binary ($10.47\pm0.05$)., Comment: 33 pages, 16 figures, 1 electronic table, accepted for ApJ

Published

2016

22. Planetary Candidates Observed by Kepler V: Planet Sample from Q1-Q12 (36 Months)

Author

Rowe, Jason F., Coughlin, Jeffrey L., Antoci, Victoria, Barclay, Thomas, Batalha, Natalie M., Borucki, William J., Burke, Christopher J., Bryson, Steven T., Caldwell, Douglas A., Campbell, Jennifer R., Catanzarite, Joseph H., Christiansen, Jessie L., Cochran, William, Gilliland, Ronald L., Girouard, Forrest R., Haas, Michael R., Helminiak, Krzysztof G., Henze, Christopher E., Hoffman, Kelsey L., Howell, Steve B., Huber, Daniel, Hunter, Roger C., Jang-Condell, Hannah, Jenkins, Jon M., Klaus, Todd C., Latham, David W., Li, Jie, Lissauer, Jack J., McCauliff, Sean D., Morris, Robert L., Mullally, F., Ofir, Aviv, Quarles, Billy, Quintana, Elisa, Sabale, Anima, Seader, Shawn, Shporer, Avi, Smith, Jeffrey C., Steffen, Jason H., Still, Martin, Tenenbaum, Peter, Thompson, Susan E., Twicken, Joseph D., Van Laerhoven, Christa, Wolfgang, Angie, and Zamudio, Khadeejah A.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Kepler mission discovered 2842 exoplanet candidates with 2 years of data. We provide updates to the Kepler planet candidate sample based upon 3 years (Q1-Q12) of data. Through a series of tests to exclude false-positives, primarily caused by eclipsing binary stars and instrumental systematics, 855 additional planetary candidates have been discovered, bringing the total number known to 3697. We provide revised transit parameters and accompanying posterior distributions based on a Markov Chain Monte Carlo algorithm for the cumulative catalogue of Kepler Objects of Interest. There are now 130 candidates in the cumulative catalogue that receive less than twice the flux the Earth receives and more than 1100 have a radius less than 1.5 Rearth. There are now a dozen candidates meeting both criteria, roughly doubling the number of candidate Earth analogs. A majority of planetary candidates have a high probability of being bonafide planets, however, there are populations of likely false-positives. We discuss and suggest additional cuts that can be easily applied to the catalogue to produce a set of planetary candidates with good fidelity. The full catalogue is publicly available at the NASA Exoplanet Archive., Comment: Accepted for publication, ApJS

Published

2015

23. No X-rays from WASP-18. Implications for its age, activity, and the influence of its massive hot Jupiter

Author

Pillitteri, Ignazio, Wolk, Scott J., Sciortino, Salvatore, and Antoci, Victoria

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

About 20% out of the $>1000$ known exoplanets are Jupiter analogs orbiting very close to their parent stars. It is still under debate to what detectable level such hot Jupiters possibly affect the activity of the host stars through tidal or magnetic star-planet interaction. In this paper we report on an 87 ks Chandra observation of the hot Jupiter hosting star WASP-18. This system is composed of an F6 type star and a hot Jupiter of mass $10.4 M_{Jup}$ orbiting in less than 20 hr around the parent star. On the basis of an isochrone fitting, WASP-18 is thought to be 600 Myr old and within the range of uncertainty of 0.5-2 Gyr. The star is not detected in X-rays down to a luminosity limit of $4\times10^{26}$ erg/s, more than two orders of magnitude lower than expected for a star of this age and mass. This value proves an unusual lack of activity for a star with estimated age around 600 Myr. We argue that the massive planet can play a crucial role in disrupting the stellar magnetic dynamo created within its thin convective layers. Another additional 212 X-ray sources are detected in the Chandra image. We list them and briefly discuss their nature., Comment: 8 pages, 7 figures, 5 tables. Accepted for publication in A&A

Published

2014

24. MOST detects corotating bright spots on the mid-O type giant {\xi} Persei

Author

Ramiaramanantsoa, Tahina, Moffat, Anthony F. J., Chené, André-Nicolas, Richardson, Noel D., Henrichs, Huib F., Desforges, Sébastien, Antoci, Victoria, Rowe, Jason F., Matthews, Jaymie M., Kuschnig, Rainer, Weiss, Werner W., Sasselov, Dimitar, Rucinski, Slavek M., and Guenther, David B.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We have used the MOST (Microvariability and Oscillations of STars) microsatellite to obtain four weeks of contiguous high-precision broadband visual photometry of the O7.5III(n)((f)) star {\xi} Persei in November 2011. This star is well known from previous work to show prominent DACs (Discrete Absorption Components) on time-scales of about 2 d from UV spectroscopy and NRP (Non Radial Pulsation) with one (l = 3) p-mode oscillation with a period of 3.5 h from optical spectroscopy. Our MOST-orbit (101.4 min) binned photometry fails to reveal any periodic light variations above the 0.1 mmag 3-sigma noise level for periods of hours, while several prominent Fourier peaks emerge at the 1 mmag level in the two-day period range. These longer-period variations are unlikely due to pulsations, including gravity modes. From our simulations based upon a simple spot model, we deduce that we are seeing the photometric modulation of several co-rotating bright spots on the stellar surface. In our model, the starting times (random) and lifetimes (up to several rotations) vary from one spot to another yet all spots rotate at the same period of 4.18 d, the best-estimated rotation period of the star. This is the first convincing reported case of co-rotating bright spots on an O star, with important implications for drivers of the DACs (resulting from CIRs - Corotating Interaction Regions) with possible bright-spot generation via a breakout at the surface of a global magnetic field generated by a subsurface convection zone., Comment: 9 pages, 4 figures, 2 tables, MNRAS in press

Published

2014

25. Stochastically excited oscillations on the upper main sequence

Author

Antoci, Victoria

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Convective envelopes in stars on the main sequence are usually connected only with stars of spectral types F5 or later. However, observations as well as theory indicate that the convective outer layers in earlier stars, despite being shallow, are still effective and turbulent enough to stochastically excite oscillations. Because of the low amplitudes, exploring stochastically excited pulsations became possible only with space missions such as Kepler and CoRoT. Here I review the recent results and discuss among others, pulsators such as delta Scuti, gamma Doradus, roAp, beta Cephei, Slowly Pulsating B and Be stars, all in the context of solar-like oscillations., Comment: 8 pages, 2 figures, Precision Asteroseismology, Proceedings IAU Symposium No. 301, 2014, J.A. Guzik, W.J. Chaplin, G. Handler & A. Pigulski, eds

Published

2013

26. RATS-Kepler -- a deep high cadence survey of the Kepler field

Author

Ramsay, Gavin, Brooks, Adam, Hakala, Pasi, Barclay, Thomas, Garcia-Alvarez, David, Antoci, Victoria, Greiss, Sandra, Still, Martin, Steeghs, Danny, Gansicke, Boris, and Reynolds, Mark

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We outline the purpose, strategy and first results of a deep, high cadence, photometric survey of the Kepler field using the Isaac Newton Telescope on La Palma and the MDM 1.3m Telescope on Kitt Peak. Our goal was to identify sources located in the Kepler field of view which are variable on a timescale of a few mins to 1 hour. The astrophysically most interesting sources would then have been candidates for observation using Kepler using 1 min sampling. Our survey covered ~42% of the Kepler field of view and we have obtained light curves for 7.1x10^5 objects in the range 13

Published

2013

27. The Discovery of HD 37605c and a Dispositive Null Detection of Transits of HD 37605b

Author

Wang, Sharon Xuesong, Wright, Jason T., Cochran, William, Kane, Stephen R., Henry, Gregory W., Payne, Matthew J., Endl, Michael, MacQueen, Phillip J., Valenti, Jeff A., Antoci, Victoria, Dragomir, Diana, Matthews, Jaymie M., Howard, Andrew W., Marcy, Geoffrey W., Isaacson, Howard, Ford, Eric B., Mahadevan, Suvrath, and von Braun, Kaspar

Subjects

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

Abstract

We report the radial-velocity discovery of a second planetary mass companion to the K0 V star HD 37605, which was already known to host an eccentric, P~55 days Jovian planet, HD 37605b. This second planet, HD 37605c, has a period of ~7.5 years with a low eccentricity and an Msini of ~3.4 MJup. Our discovery was made with the nearly 8 years of radial velocity follow-up at the Hobby-Eberly Telescope and Keck Observatory, including observations made as part of the Transit Ephemeris Refinement and Monitoring Survey (TERMS) effort to provide precise ephemerides to long-period planets for transit follow-up. With a total of 137 radial velocity observations covering almost eight years, we provide a good orbital solution of the HD 37605 system, and a precise transit ephemeris for HD 37605b. Our dynamic analysis reveals very minimal planet-planet interaction and an insignificant transit time variation. Using the predicted ephemeris, we performed a transit search for HD 37605b with the photometric data taken by the T12 0.8-m Automatic Photoelectric Telescope (APT) and the Microvariability and Oscillations of Stars (MOST) satellite. Though the APT photometry did not capture the transit window, it characterized the stellar activity of HD 37605, which is consistent of it being an old, inactive star, with a tentative rotation period of 57.67 days. The MOST photometry enabled us to report a dispositive null detection of a non-grazing transit for this planet. Within the predicted transit window, we exclude an edge-on predicted depth of 1.9% at >>10sigma, and exclude any transit with an impact parameter b>0.951 at greater than 5sigma. We present the BOOTTRAN package for calculating Keplerian orbital parameter uncertainties via bootstrapping. We found consistency between our orbital parameters calculated by the RVLIN package and error bars by BOOTTRAN with those produced by a Bayesian analysis using MCMC., Comment: 18 pages, 7 figures, 7 tables, accepted to be published in ApJ. For machine-readable tables, see http://sites.google.com/site/sharonxuesong/publications/a001_hd37605 . For the BOOTTRAN package, see http://exoplanets.org/old/code/

Published

2012

28. Non-detection of previously reported transits of HD 97658b with MOST photometry

Author

Dragomir, Diana, Matthews, Jaymie M., Howard, Andrew W., Antoci, Victoria, Henry, Gregory W., Guenther, David B., Johnson, John A., Kuschnig, Rainer, Marcy, Geoffrey W., Moffat, Anthony F. J., Rowe, Jason F., Rucinski, Slavek M., Sasselov, Dimitar, and Weiss, Werner W.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The radial velocity-discovered exoplanet HD 97658b was recently announced to transit, with a derived planetary radius of 2.93 \pm 0.28 R_{Earth}. As a transiting super-Earth orbiting a bright star, this planet would make an attractive candidate for additional observations, including studies of its atmospheric properties. We present and analyze follow-up photometric observations of the HD 97658 system acquired with the MOST space telescope. Our results show no transit with the depth and ephemeris reported in the announcement paper. For the same ephemeris, we rule out transits for a planet with radius larger than 2.09 R_{Earth}, corresponding to the reported 3\sigma lower limit. We also report new radial velocity measurements which continue to support the existence of an exoplanet with a period of 9.5 days, and obtain improved orbital parameters., Comment: 16 pages, 4 figures; 1 Table; accepted for publication in ApJL, includes changes made in response to the referee report

Published

2012

29. Variability Catalog of Stars Observed during the TESS Prime Mission

Author

Fetherolf, Tara, primary, Pepper, Joshua, additional, Simpson, Emilie, additional, Kane, Stephen R., additional, Močnik, Teo, additional, English, John Edward, additional, Antoci, Victoria, additional, Huber, Daniel, additional, Jenkins, Jon M., additional, Stassun, Keivan, additional, Twicken, Joseph D., additional, Vanderspek, Roland, additional, and Winn, Joshua N., additional

Published

2023

30. Unresolved Rossby and gravity modes in 214 A and F stars showing rotational modulation

Author

Henriksen, Andreea I, primary, Antoci, Victoria, additional, Saio, Hideyuki, additional, Grundahl, Frank, additional, Kjeldsen, Hans, additional, Van Reeth, Timothy, additional, Bowman, Dominic M, additional, Pápics, Péter I, additional, De Cat, Peter, additional, Krüger, Joachim, additional, Andersen, M Fredslund, additional, and Pallé, P L, additional

Published

2023

31. Search for variables in six Galactic open clusters

Author

Paunzen, Ernst, Handler, Gerald, Lendl, Monika, Baumann, Bernhard, Rab, Christian, Meingast, Stefan, Rode-Paunzen, Monika, Netopil, Martin, Antoci, Victoria, Zhu, Liying, Zejda, Miloslav, and Božić, Hrvoje

Published

2017

32. Variability Catalog of Stars Observed during the TESS Prime Mission

Author

Fetherolf, Tara, Pepper, Joshua, Simpson, Emilie, Kane, Stephen R., Močnik, Teo, English, John Edward, Antoci, Victoria, Huber, Daniel, Jenkins, Jon M., Stassun, Keivan, Twicken, Joseph D., Vanderspek, Roland, Winn, Joshua N., Fetherolf, Tara, Pepper, Joshua, Simpson, Emilie, Kane, Stephen R., Močnik, Teo, English, John Edward, Antoci, Victoria, Huber, Daniel, Jenkins, Jon M., Stassun, Keivan, Twicken, Joseph D., Vanderspek, Roland, and Winn, Joshua N.

Abstract

During its 2 yr Prime Mission, TESS observed over 232,000 stars at a 2 minute cadence across ∼70% of the sky. These data provide a record of photometric variability across a range of astrophysically interesting timescales, probing stellar rotation, stellar binarity, and pulsations. We have analyzed the TESS 2 minute light curves to identify periodic variability on timescales of 0.01–13 days, and explored the results across various stellar properties. We have identified over 46,000 periodic variables with high confidence, and another 38,000 with moderate confidence. These light curves show differences in variability type across the Hertzsprung–Russell diagram, with distinct groupings of rotational, eclipsing, and pulsational variables. We also see interesting patterns across period–luminosity space, with clear correlations between period and luminosity for high-mass pulsators, evolved stars, and contact binary systems, a discontinuity corresponding to the Kraft break, and a lower occurrence of periodic variability in main-sequence stars on timescales of 1.5–2 days. The variable stars identified in this work are cross-identified with several other variability catalogs, from which we find good agreement between the measured periods of variability. There are ∼65,000 variable stars that are newly identified in this work, which includes the rotation rates of low-mass stars, high-frequency pulsation periods for high-mass stars, and a variety of giant star variability.

Published

2023

33. Rotational modulation in A and F stars: Magnetic stellar spots or convective core rotation?

Author

Henriksen, Andreea I, Antoci, Victoria, Saio, Hideyuki, Cantiello, Matteo, Kjeldsen, Hans, Kurtz, Donald Wayne, Murphy, Simon J, Mathur, Savita, García, Rafael A, Santos, Ângela R G, Henriksen, Andreea I, Antoci, Victoria, Saio, Hideyuki, Cantiello, Matteo, Kjeldsen, Hans, Kurtz, Donald Wayne, Murphy, Simon J, Mathur, Savita, García, Rafael A, and Santos, Ângela R G

Abstract

The Kepler mission revealed a plethora of stellar variability in the light curves of many stars, some associated with magnetic activity or stellar oscillations. In this work, we analyse the periodic signal in 162 intermediate-mass stars, interpreted as Rossby modes and rotational modulation - the so-called hump & spike feature. We investigate whether the rotational modulation (spike) is due to stellar spots caused by magnetic fields or due to Overstable Convective (OsC) modes resonantly exciting g modes, with frequencies corresponding to the convective core rotation rate. Assuming that the spikes are created by magnetic spots at the stellar surface, we recover the amplitudes of the magnetic fields, which are in good agreement with theoretical predictions. Our data show a clear anti-correlation between the spike amplitudes and stellar mass and possibly a correlation with stellar age, consistent with the dynamo-generated magnetic fields theory in (sub)-surface convective layers. Investigating the harmonic behaviour, we find that for 125 stars neither of the two possible explanations can be excluded. While our results suggest that the dynamo-generated magnetic field scenario is more likely to explain the spike feature, we assess further work is needed to distinguish between the two scenarios. One method for ruling out one of the two explanations is to directly observe magnetic fields in hump & spike stars. Another would be to impose additional constraints through detailed modelling of our stars, regarding the rotation requirement in the OsC mode scenario or the presence of a convective-core (stellar age).

Published

2023

34. Rotational modulation in A and F stars: magnetic stellar spots or convective core rotation?

Author

Henriksen, Andreea I, primary, Antoci, Victoria, additional, Saio, Hideyuki, additional, Cantiello, Matteo, additional, Kjeldsen, Hans, additional, Kurtz, Donald W, additional, Murphy, Simon J, additional, Mathur, Savita, additional, García, Rafael A, additional, and Santos, Ângela R G, additional

Published

2023

35. TOI-1431b/MASCARA-5b: A Highly Irradiated Ultrahot Jupiter Orbiting One of the Hottest and Brightest Known Exoplanet Host Stars

Author

Addison, Brett C., primary, Knudstrup, Emil, additional, Wong, Ian, additional, Hébrard, Guillaume, additional, Dorval, Patrick, additional, Snellen, Ignas, additional, Albrecht, Simon, additional, Bello-Arufe, Aaron, additional, Almenara, Jose-Manuel, additional, Boisse, Isabelle, additional, Bonfils, Xavier, additional, Dalal, Shweta, additional, Demangeon, Olivier D. S., additional, Hoyer, Sergio, additional, Kiefer, Flavien, additional, Santos, N. C., additional, Nowak, Grzegorz, additional, Luque, Rafael, additional, Stangret, Monika, additional, Palle, Enric, additional, Tronsgaard, René, additional, Antoci, Victoria, additional, Buchhave, Lars A., additional, Günther, Maximilian N., additional, Daylan, Tansu, additional, Murgas, Felipe, additional, Parviainen, Hannu, additional, Esparza-Borges, Emma, additional, Crouzet, Nicolas, additional, Narita, Norio, additional, Fukui, Akihiko, additional, Kawauchi, Kiyoe, additional, Watanabe, Noriharu, additional, Rabus, Markus, additional, Johnson, Marshall C., additional, Otten, Gilles P. P. L., additional, Jan Talens, Geert, additional, Cabot, Samuel H. C., additional, Fischer, Debra A., additional, Grundahl, Frank, additional, Fredslund Andersen, Mads, additional, Jessen-Hansen, Jens, additional, Pallé, Pere, additional, Shporer, Avi, additional, Ciardi, David R., additional, Clark, Jake T., additional, Wittenmyer, Robert A., additional, Wright, Duncan J., additional, Horner, Jonathan, additional, Collins, Karen A., additional, Jensen, Eric L. N., additional, Kielkopf, John F., additional, Schwarz, Richard P., additional, Srdoc, Gregor, additional, Yilmaz, Mesut, additional, Senavci, Hakan Volkan, additional, Diamond, Brendan, additional, Harbeck, Daniel, additional, Komacek, Thaddeus D., additional, Smith, Jeffrey C., additional, Wang, Songhu, additional, Eastman, Jason D., additional, Stassun, Keivan G., additional, Latham, David W., additional, Vanderspek, Roland, additional, Seager, Sara, additional, Winn, Joshua N., additional, Jenkins, Jon M., additional, Louie, Dana R., additional, Bouma, Luke G., additional, Twicken, Joseph D., additional, Levine, Alan M., additional, and McLean, Brian, additional

Published

2021

36. TOI-1518b: A Misaligned Ultra-hot Jupiter with Iron in Its Atmosphere

Author

Cabot, Samuel H. C., primary, Bello-Arufe, Aaron, additional, Mendonça, João M., additional, Tronsgaard, René, additional, Wong, Ian, additional, Zhou, George, additional, Buchhave, Lars A., additional, Fischer, Debra A., additional, Stassun, Keivan G., additional, Antoci, Victoria, additional, Baker, David, additional, Belinski, Alexander A., additional, Benneke, Björn, additional, Bouma, Luke G., additional, Christiansen, Jessie L., additional, Collins, Karen A., additional, Goliguzova, Maria V., additional, Hagey, Simone, additional, Jenkins, Jon M., additional, Jensen, Eric L. N., additional, Kidwell Jr, Richard C., additional, Laloum, Didier, additional, Massey, Bob, additional, McLeod, Kim K., additional, Latham, David W., additional, Morgan, Edward H., additional, Ricker, George, additional, Safonov, Boris S., additional, Schlieder, Joshua E., additional, Seager, Sara, additional, Shporer, Avi, additional, Smith, Jeffrey C., additional, Srdoc, Gregor, additional, Strakhov, Ivan A., additional, Torres, Guillermo, additional, Twicken, Joseph D., additional, Vanderspek, Roland, additional, Vezie, Michael, additional, and Winn, Joshua N., additional

Published

2021

37. TOI-1431b/MASCARA-5b: A Highly Irradiated Ultrahot Jupiter Orbiting One of the Hottest and Brightest Known Exoplanet Host Stars

Author

Addison, Brett C., Knudstrup, Emil, Wong, Ian, Hébrard, Guillaume, Dorval, Patrick, Snellen, Ignas, Albrecht, Simon, Bello-Arufe, Aaron, Almenara, Jose-Manuel, Boisse, Isabelle, Bonfils, Xavier, Dalal, Shweta, Demangeon, Olivier D. S., Hoyer, Sergio, Kiefer, Flavien, Santos, N. C., Nowak, Grzegorz, Luque, Rafael, Stangret, Monika, Palle, Enric, Tronsgaard, René, Antoci, Victoria, Buchhave, Lars A., Günther, Maximilian N., Daylan, Tansu, Murgas, Felipe, Parviainen, Hannu, Esparza-Borges, Emma, Crouzet, Nicolas, Narita, Norio, Fukui, Akihiko, Kawauchi, Kiyoe, Watanabe, Noriharu, Rabus, Markus, Johnson, Marshall C., Otten, Gilles P. P. L., Talens, Geert Jan, Cabot, Samuel H. C., Fischer, Debra A., Grundahl, Frank, Andersen, Mads Fredslund, Jessen-Hansen, Jens, Pallé, Pere, Shporer, Avi, Ciardi, David R., Clark, Jake T., Wittenmyer, Robert A., Wright, Duncan J., Horner, Jonathan, Collins, Karen A., Jensen, Eric L. N., Kielkopf, John F., Schwarz, Richard P., Srdoc, Gregor, Yilmaz, Mesut, Senavci, Hakan Volkan, Diamond, Brendan, Harbeck, Daniel, Komacek, Thaddeus D., Smith, Jeffrey C., Wang, Songhu, Eastman, Jason D., Stassun, Keivan G., Latham, David W., Vanderspek, Roland, Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Louie, Dana R., Bouma, Luke G., Twicken, Joseph D., Levine, Alan M., McLean, Brian, Addison, Brett C., Knudstrup, Emil, Wong, Ian, Hébrard, Guillaume, Dorval, Patrick, Snellen, Ignas, Albrecht, Simon, Bello-Arufe, Aaron, Almenara, Jose-Manuel, Boisse, Isabelle, Bonfils, Xavier, Dalal, Shweta, Demangeon, Olivier D. S., Hoyer, Sergio, Kiefer, Flavien, Santos, N. C., Nowak, Grzegorz, Luque, Rafael, Stangret, Monika, Palle, Enric, Tronsgaard, René, Antoci, Victoria, Buchhave, Lars A., Günther, Maximilian N., Daylan, Tansu, Murgas, Felipe, Parviainen, Hannu, Esparza-Borges, Emma, Crouzet, Nicolas, Narita, Norio, Fukui, Akihiko, Kawauchi, Kiyoe, Watanabe, Noriharu, Rabus, Markus, Johnson, Marshall C., Otten, Gilles P. P. L., Talens, Geert Jan, Cabot, Samuel H. C., Fischer, Debra A., Grundahl, Frank, Andersen, Mads Fredslund, Jessen-Hansen, Jens, Pallé, Pere, Shporer, Avi, Ciardi, David R., Clark, Jake T., Wittenmyer, Robert A., Wright, Duncan J., Horner, Jonathan, Collins, Karen A., Jensen, Eric L. N., Kielkopf, John F., Schwarz, Richard P., Srdoc, Gregor, Yilmaz, Mesut, Senavci, Hakan Volkan, Diamond, Brendan, Harbeck, Daniel, Komacek, Thaddeus D., Smith, Jeffrey C., Wang, Songhu, Eastman, Jason D., Stassun, Keivan G., Latham, David W., Vanderspek, Roland, Seager, Sara, Winn, Joshua N., Jenkins, Jon M., Louie, Dana R., Bouma, Luke G., Twicken, Joseph D., Levine, Alan M., and McLean, Brian

Abstract

We present the discovery of a highly irradiated and moderately inflated ultrahot Jupiter, TOI-1431b/MASCARA-5 b (HD 201033b), first detected by NASA's Transiting Exoplanet Survey Satellite mission (TESS) and the Multi-site All-Sky Camera (MASCARA). The signal was established to be of planetary origin through radial velocity measurements obtained using SONG, SOPHIE, FIES, NRES, and EXPRES, which show a reflex motion of K = 294.1 ± 1.1 m s−1. A joint analysis of the TESS and ground-based photometry and radial velocity measurements reveals that TOI-1431b has a mass of Mp = 3.12 ± 0.18 MJ (990 ± 60 M⊕), an inflated radius of Rp = 1.49 ± 0.05 RJ (16.7 ± 0.6 R⊕), and an orbital period of P = 2.650237 ± 0.000003 days. Analysis of the spectral energy distribution of the host star reveals that the planet orbits a bright (V = 8.049 mag) and young ( Gyr) Am type star with K, resulting in a highly irradiated planet with an incident flux of 109 erg s−1 cm−2 () and an equilibrium temperature of Teq = 2370 ± 70 K. TESS photometry also reveals a secondary eclipse with a depth of ppm as well as the full phase curve of the planet's thermal emission in the red-optical. This has allowed us to measure the dayside and nightside temperature of its atmosphere as Tday = 3004 ± 64 K and Tnight = 2583 ± 63 K, the second hottest measured nightside temperature. The planet's low day/night temperature contrast (∼420 K) suggests very efficient heat transport between the dayside and nightside hemispheres. Given the host star brightness and estimated secondary eclipse depth of ∼1000 ppm in the K band, the secondary eclipse is potentially detectable at near-IR wavelengths with ground-based facilities, and the planet is ideal for intensive atmospheric characterization thr

Published

2021

38. Inferring the internal structure of gamma Doradus variables from Rossby modes:Extension of the nu - root Delta nu diagram

Author

Takata, M., Ouazzani, R-M, Saio, H., Christophe, S., Ballot, J., Antoci, Victoria, and Salmon, S. J. A. J.

Subjects

oscillations [stars], GRAVITY MODES, STAR, rotation [stars], data analysis [methods], ASTEROSEISMIC MEASUREMENT, PULSATORS, Astrophysics::Earth and Planetary Astrophysics, asteroseismology, NONRADIAL OSCILLATIONS, MAIN-SEQUENCE, PERIOD SPACINGS, TO-CORE ROTATION

Abstract

A unique type of oscillation modes has recently been identified in gamma Doradus variables. These low-frequency modes are called Rossby modes (or r modes) because they consist of Rossby waves in each spherical layer. These waves are characterised by toroidal motions that are restored by the latitudinal variation in the Coriolis force. The horizontal oscillations are weakly coupled in the radial direction. We show that these modes can be used to probe the interior of the stars. The method of thenu - root Delta nunu -Deltanudiagram, which has originally been developed to analyse another type of modes, Kelvin g-modes (or prograde sectoral g-modes), is extended to take Rossby modes into account. We first show based on a theoretical model and then on two stars, KIC 3240967 and KIC 12066947, that the method can be adapted to Rossby modes straightforwardly. In addition, we demonstrate that simultaneous analysis of Kelvin and Rossby modes results in (1) smaller uncertainties in the internal rotation rate and the characteristic period of gravity modes, and (2) a substantial reduction of the correlation between the estimates of the two parameters.

Published

2020

39. Precise radial velocities of giant stars

Author

Heeren, Paul, primary, Reffert, Sabine, additional, Trifonov, Trifon, additional, Wong, Ka Ho, additional, Lee, Man Hoi, additional, Lillo-Box, Jorge, additional, Quirrenbach, Andreas, additional, Arentoft, Torben, additional, Albrecht, Simon, additional, Grundahl, Frank, additional, Andersen, Mads Fredslund, additional, Antoci, Victoria, additional, and Pallé, Pere L., additional

Published

2021

40. Asteroseismic masses of four evolved planet-hosting stars using SONG and TESS: resolving the retired A-star mass controversy

Author

Malla, Sai Prathyusha, primary, Stello, Dennis, additional, Huber, Daniel, additional, Montet, Benjamin T, additional, Bedding, Timothy R, additional, Fredslund Andersen, Mads, additional, Grundahl, Frank, additional, Jessen-Hansen, Jens, additional, Hey, Daniel R, additional, Palle, Pere L, additional, Deng, Licai, additional, Zhang, Chunguang, additional, Chen, Xiaodian, additional, Lloyd, James, additional, and Antoci, Victoria, additional

Published

2020

41. Very regular high-frequency pulsation modes in young intermediate-mass stars

Author

Bedding, Timothy R., primary, Murphy, Simon J., additional, Hey, Daniel R., additional, Huber, Daniel, additional, Li, Tanda, additional, Smalley, Barry, additional, Stello, Dennis, additional, White, Timothy R., additional, Ball, Warrick H., additional, Chaplin, William J., additional, Colman, Isabel L., additional, Fuller, Jim, additional, Gaidos, Eric, additional, Harbeck, Daniel R., additional, Hermes, J. J., additional, Holdsworth, Daniel L., additional, Li, Gang, additional, Li, Yaguang, additional, Mann, Andrew W., additional, Reese, Daniel R., additional, Sekaran, Sanjay, additional, Yu, Jie, additional, Antoci, Victoria, additional, Bergmann, Christoph, additional, Brown, Timothy M., additional, Howard, Andrew W., additional, Ireland, Michael J., additional, Isaacson, Howard, additional, Jenkins, Jon M., additional, Kjeldsen, Hans, additional, McCully, Curtis, additional, Rabus, Markus, additional, Rains, Adam D., additional, Ricker, George R., additional, Tinney, Christopher G., additional, and Vanderspek, Roland K., additional

Published

2020

42. Sun-like Oscillations in the Population II giant HD 122563

Author

Creevey, Orlagh, Thévenin, Frédéric, Grundahl, Frank, Corsaro, Enrico, Andersen, Mads F., Antoci, Victoria, Bigot, Lionel, Collet, Remo, Pallé, Pere L., Pichon, Bernard, Salabert, David, Observatoire de la Côte d'Azur (OCA), Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Université Côte d'Azur (UCA), Joseph Louis LAGRANGE (LAGRANGE), Université Côte d'Azur (UCA)-Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Observatoire de la Côte d'Azur, and COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Université Côte d'Azur (UCA)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, stars: Population II, asteroseismology, [PHYS.ASTR.SR]Physics [physics]/Astrophysics [astro-ph]/Solar and Stellar Astrophysics [astro-ph.SR], Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics, Astrophysics of Galaxies (astro-ph.GA), Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, stars: individual: HD 122563, stars: fundamental parameters, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics::Galaxy Astrophysics

Abstract

We have been monitoring the metal-poor Population II giant, HD 122563, for radial velocity variations since 2016 using the SONG telescope on Tenerife. We have detected the global seismic quantity, numax, which provides information related to the stellar parameters. By combining these data with complementary data, we derive a new precise surface gravity, radius and distance to the star. Our results are corroborated by using the parallax from Gaia DR2. We present these results and some of their implications., Comment: Proceedings of the French Astronomy Society Meeting, SF2A, June 2019; v2: typo in reported numax in Table, authors corrected

Published

2019

43. Antoci, Victoria Laura

Author

Antoci, Victoria Laura and Antoci, Victoria Laura

Published

2019

44. Gravity-mode period spacings and near-core rotation rates of 611 γ Doradus stars with Kepler

Author

Li, Gang, primary, Van Reeth, Timothy, additional, Bedding, Timothy R, additional, Murphy, Simon J, additional, Antoci, Victoria, additional, Ouazzani, Rhita-Maria, additional, and Barbara, Nicholas H, additional

Published

2019

45. The Kepler Smear Campaign: Light Curves for 102 Very Bright Stars

Author

Pope, Benjamin J. S., primary, Davies, Guy R., additional, Hawkins, Keith, additional, White, Timothy R., additional, Stokholm, Amalie, additional, Bieryla, Allyson, additional, Latham, David W., additional, Lucey, Madeline, additional, Aerts, Conny, additional, Aigrain, Suzanne, additional, Antoci, Victoria, additional, Bedding, Timothy R., additional, Bowman, Dominic M., additional, Caldwell, Douglas A., additional, Chontos, Ashley, additional, Esquerdo, Gilbert A., additional, Huber, Daniel, additional, Jofré, Paula, additional, Murphy, Simon J., additional, van Reeth, Timothy, additional, Silva Aguirre, Victor, additional, and Yu, Jie, additional

Published

2019

46. Period spacings of γ Doradus pulsators in the Kepler field: Rossby and gravity modes in 82 stars

Author

Li, Gang, primary, Van Reeth, Timothy, additional, Bedding, Timothy R, additional, Murphy, Simon J, additional, and Antoci, Victoria, additional

Published

2019

47. Theory and evidence of global Rossby waves in upper main-sequence stars: r-mode oscillations in many Kepler stars

Author

Saio, Hideyuki, Kurtz, Donald Wayne, Murphy, Simon J, Antoci, Victoria L, Lee, Umin, Saio, Hideyuki, Kurtz, Donald Wayne, Murphy, Simon J, Antoci, Victoria L, and Lee, Umin

Abstract

Asteroseismic inference from pressure modes (p modes) and buoyancy, or gravity, modes (g modes) is ubiquitous for stars across the Hertzsprung–Russell diagram. Until now, however, discussion of r modes (global Rossby waves) has been rare. Here we derive the expected frequency ranges of r modes in the observational frame by considering the visibility of these modes. We find that the frequencies of r modes of azimuthal order m appear as groups at slightly lower frequency than m times the rotation frequency. Comparing the visibility curves for r modes with Fourier amplitude spectra of Kepler light curves of upper main-sequence B, A, and F stars, we find that r modes are present in many γ Dor stars (as first discovered by Van Reeth et al.), spotted stars, and so-called heartbeat stars, which are highly eccentric binary stars. We also find a signature of r modes in a frequently bursting Be star observed by Kepler. In the amplitude spectra of moderately to rapidly rotating γ Dor stars, r-mode frequency groups appear at lower frequency than prograde g-mode frequency groups, while in the amplitude spectra of spotted early A to B stars, groups of symmetric (with respect to the equator) r-mode frequencies appear just below the frequency of a structured peak that we suggest represents an approximate stellar rotation rate. In many heartbeat stars, a group of frequencies can be fitted with symmetric m = 1 r modes, which can be used to obtain rotation frequencies of these stars.

Published

2018

48. An astrophysical interpretation of the remarkable g-mode frequency groups of the rapidly rotating γ Dor star, KIC 5608334

Author

Saio, Hideyuki, Bedding, Timothy R, Kurtz, Donald Wayne, Murphy, Simon J, Antoci, Victoria L, Shibahashi, Hiromoto, Li, Gang, Takata, Masao, Saio, Hideyuki, Bedding, Timothy R, Kurtz, Donald Wayne, Murphy, Simon J, Antoci, Victoria L, Shibahashi, Hiromoto, Li, Gang, and Takata, Masao

Abstract

The Fourier spectrum of the γ-Dor variable KIC 5608334 shows remarkable frequency groups at ∼3, ∼6, ∼9, and 11–12 d−1. We explain the four frequency groups as prograde sectoral g modes in a rapidly rotating star. Frequencies of intermediate-to-high radial order prograde sectoral g modes in a rapidly rotating star are proportional to |m| (i.e. ν∝|m|) in the corotating frame as well as in the inertial frame. This property is consistent with the frequency groups of KIC 5608334 as well as the period versus period-spacing relation present within each frequency group, if we assume a rotation frequency of 2.2 d−1, and that each frequency group consists of prograde sectoral g modes of |m| = 1, 2, 3, and 4, respectively. In addition, these modes naturally satisfy near-resonance conditions νi ≈ νj + νk with mi = mj + mk. We even find exact resonance frequency conditions (within the precise measurement uncertainties) in many cases, which correspond to combination frequencies.

Published

2018

49. Gravity-mode period spacings and near-core rotation rates of 611 γ Doradus stars with Kepler.

Author

Li, Gang, Van Reeth, Timothy, Bedding, Timothy R, Murphy, Simon J, Antoci, Victoria, Ouazzani, Rhita-Maria, and Barbara, Nicholas H

Subjects

ROTATIONAL motion, STELLAR oscillations, PULSATING stars, STELLAR rotation, RED giants, STARS, EARLY stars

Abstract

We report our survey of γ Dor stars from the 4-yr Kepler mission. These stars pulsate mainly in g modes and r modes, showing period-spacing patterns in the amplitude spectra. The period-spacing patterns are sensitive to the chemical composition gradients and the near-core rotation, hence they are essential for understanding the stellar interior. We identified period-spacing patterns in 611 γ Dor stars. Almost every star pulsates in dipole g modes, while about 30 per cent of stars also show clear patterns for quadrupole g modes and 16 per cent of stars present r-mode patterns. We measure periods, period spacings, and the gradient of the period spacings. These three observables guide the mode identifications and can be used to estimate the near-core rotation rate. We find many stars are hotter and show longer period-spacing patterns than theory. Using the traditional approximation of rotation (TAR), we inferred the asymptotic spacings, the near-core rotation rates, and the radial orders of the g and r modes. Most stars have a near-core rotation rate around 1 d−1 and an asymptotic spacing around 4000 s. We also find that many stars rotate more slowly than predicted by theory for unclear reasons. 11 stars show rotational splittings with fast rotation rates. We compared the observed slope–rotation relation with the theory and find a large spread. We detected rotational modulations in 58 stars and used them to derive the core-to-surface rotation ratios. The interiors rotate faster than the cores in most stars, but by no more than 5 per cent. [ABSTRACT FROM AUTHOR]

Published

2020

50. Period spacings of γ Doradus pulsators in theKeplerfield: detection methods and application to 22 slow rotators

Author

Li, Gang, primary, Bedding, Timothy R, additional, Murphy, Simon J, additional, Van Reeth, Timothy, additional, Antoci, Victoria, additional, and Ouazzani, Rhita-Maria, additional

Published

2018