Your search keyword '"binaries: eclipsing"' showing total 2,645 results

1. Variations of flare energy release behaviour and magnetic loop characteristics versus absolute stellar parameters.

Author

Yoldaş, E and Dal, H A

Subjects

*ENERGY levels (Quantum mechanics), *ECLIPSING binaries, *STARS, *STATISTICAL models, *STATISTICS

Abstract

In this paper, we examine how stellar flare activity varies with evolution stage, rotation period, and spectral type. To do this, we examine the distributions of the flare equivalent duration on a logarithmic scale, which we consider as an indicator of the maximum energy level that a star can reach in white-light flares. We conduct these analyses using two distinct statistical models of data obtained from white-light flare patrols of 33 stars. These models are the one-phase exponential association (OPEA) and cumulative flare frequency models. The results show that the value of the OPEA model parameter Plateau has a linear relationship with the stellar B – V colour index and the rotation period. In addition, it is shown that flare time-scales, and therefore the maximum magnetic loop height that stars can have, vary according to the evolutionary stage of the star. Finally, it is concluded that the cumulative flare frequency parameters of the stars are not as effective as the OPEA parameters at exhibiting these variations. [ABSTRACT FROM AUTHOR]

Published

2024

2. On the nature of the eccentric eclipsing binary star SY Phe with a pulsating γ Dor component.

Author

Erdem, Ahmet, Sürgit, Derya, Engelbrecht, Chris A, Zasche, Petr, Bakış, Volkan, and Marang, Fred

Subjects

*STELLAR oscillations, *RADIAL velocity of stars, *VARIABLE stars, *LIGHT curves, *ASTRONOMICAL observatories

Abstract

Spectroscopic observations of the eccentric binary system SY Phe were made at the South African Astronomical Observatory in 2019, 2020, and 2021, and its mid-resolution spectra were obtained. The radial velocities of the component stars were measured using the cross-correlation method and Fourier disentangling of the spectra. The spectral type (hence the effective temperature) of the primary star was determined from a model-atmosphere analysis. The radial velocity and Transiting Exoplanet Survey Satellite (TESS) light curves of the system were analysed, and its absolute parameters were derived. A strong (5.2 mmag) periodic signal with a frequency typical of |$\gamma$| Dor stars (1.169 cycles per day) dominates the Fourier spectrum of the light curve between the eclipses. Apsidal motion parameters of SY Phe were calculated by studying eclipse timing variations. The Geneva evolution models indicate an evolutionary age of 2 Gyr and solar metallicity for the primary component; however, although the position of the secondary component in the H–R diagram matches the isochrone of 2 Gyr, it appears to have a larger radius and higher effective temperature than expected for its determined mass. Here, the secondary component has too large a radius, which is in accordance with the radius discrepancy problem that has been encountered in other studies, especially in late-type dwarfs, and has not been solved for half a century. [ABSTRACT FROM AUTHOR]

Published

2024

3. A comprehensive study of five candidate δ Scuti-type pulsators in detached eclipsing binaries.

Author

Pawar, T., Hełminiak, K. G., Moharana, A., Pawar, G., Pyatnytskyy, M., Lala, H. N., and Konacki, M.

Subjects

*STELLAR oscillations, *ECLIPSING binaries, *VARIABLE stars, *FREQUENCIES of oscillating systems, *ASTEROSEISMOLOGY

Abstract

Context. Pulsating stars in eclipsing binaries (EBs) provide an excellent opportunity to obtain precise, model-independent stellar parameters for studying these oscillations in detail. One of the most common classes of pulsators found in such EBs exhibits δ Scuti-type oscillations. Characterising these pulsators using the precise stellar parameters obtained using EB modelling can help us better understand such stars, and provide strong anchors for asteroseismic studies. Aims. We performed a comprehensive photometric and spectroscopic analysis of candidate pulsators in detached EBs, to add to the sample of such systems with accurately determined absolute parameters. Methods. We performed radial velocity and light curve modelling to estimate the absolute stellar parameters, and detailed spectroscopic modelling to obtain the global metallicity and temperatures. Frequency power spectra were obtained using residuals from binary modelling. Finally, we used isochrones to determine the age of the stars, and compared the estimated physical parameters to the theoretically obtained values. Results. We present a detailed analysis of four candidate δ Scuti-type pulsators in EBs, and update the light curve analysis of the previously studied system TIC 308953703. The masses and radii of components are constrained to a high accuracy, which helps us constrain the age of the systems. We perform a Fourier analysis of the observed oscillations, and try to explain their origin. For TIC 81702112, we report tidal effects causing amplitude variation in the oscillation frequencies over the orbital phase. [ABSTRACT FROM AUTHOR]

Published

2024

4. High-resolution spectroscopy of detached eclipsing binaries during total eclipses.

Author

Hełminiak, K. G., Olszewska, J. M., Puciata-Mroczynska, M., and Pawar, T.

Subjects

*STELLAR atmospheres, *DATA release, *SPECTROMETRY, *AGE

Abstract

Context. We present results of high-resolution spectroscopic observations of detached eclipsing binaries (DEBs) with total eclipses, for which UVES spectra were obtained during the phase of totality. These observations serve as a key way to determine the age and initial metallicity of the systems and to verify evolutionary phases of their components and distances. Aims. With the additional, independent information concerning the effective temperature and metallicity of one of the components, we aim to estimate the precise ages of the studied binaries and show the usefulness of totality spectra. The second goal was to provide precise orbital and physical stellar parameters of the components of systems in question. Methods. Using the VLT/UVES, we obtained high-resolution spectra of 11 DEBs during their total-eclipse phase. Atmospheric parameters of then-visible (larger) components were obtained with iSpec. With additional spectroscopy from the Comprehensive Research with Échelles on the Most interesting Eclipsing binaries (CRÉME) project, public archives, and literature, we obtained radial-velocity (RV) measurements, from which orbital parameters were calculated. Photometric time-series observations from TESS and ASAS were modelled with the JKTEBOP code, and, combined with RV-based results, they allowed us to obtain physical parameters for nine double-lined systems from our sample. All the available data were used to constrain the ages with our own approach, utilising MESA isochrones. Reddening-free, isochrone-based distances were also estimated and confronted with Gaia Data Release 3 (GDR3) results. Results. We show that single spectroscopic observations taken during a total eclipse can break the age-metallicity degeneracy and allow for the precise determination of the age of a DEB. With high-quality spectroscopic and photometric data, we are able to reach a 5−10% level of uncertainty (e.g. 724−24+52 Myr). Even for single-lined DEBs, where absolute masses are not possible to obtain, the spectroscopic analysis of one of the components allows one to put strong constraints on the properties of both stars. For some cases, we noted inconsistencies between isochrone-based and GDR3 distances. For one binary, which could not be fitted with a single isochrone (RZ Eri), we suggest a new explanation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Relative evolution of eclipsing binaries: A tool for measuring globular cluster ages and He abundances.

Author

Cristi-Cambiaso, N., Catelan, M., Valcarce, A. A. R., and Papageorgiou, A.

Subjects

*MONTE Carlo method, *STELLAR evolution, *ECLIPSING binaries, *ESTIMATION theory, *WORK measurement, *GLOBULAR clusters

Abstract

Context. Globular clusters (GCs) are among the oldest objects in the Universe for which an age can be directly measured; they thus play an important cosmological role. This age depends sensitively on the He abundance, however, which cannot be reliably measured from spectroscopy in GC stars. Detached eclipsing binaries (DEBs) near the turnoff (TO) point may play an important role in this regard. Aims. The aim of this study is to explore the possibility that, by working with differential measurements of stars that comprise a TO binary system and by assuming the two stars have the same age and He abundance, one can achieve tighter, more robust, and less model-dependent constraints on the ages and He abundances than otherwise possible by working with the absolute parameters of the stars. Methods. We compared both the absolute and differential parameters of the stars in V69, a TO DEB pair in the GC 47 Tuc, with two different sets of stellar evolutionary tracks, making use of a Monte Carlo technique to estimate the GC's He abundance and age, along with their uncertainties. Results. We find that the relative approach can produce age and He abundance estimates that are in good agreement with those from the literature. We show that our estimates are also less model-dependent, less sensitive to [Fe/H], and more robust to inherent model systematics than those obtained with an absolute approach. On the other hand, the relative analysis results in larger statistical uncertainties than its absolute counterpart, at least in the case of V69, where the two stars have very similar properties. For binary pairs in which one of the components is less evolved than the other, the statistical uncertainty can be reduced. Conclusions. Our results suggest that the method proposed in this work can be used to robustly constrain the He abundance and ages of GCs. [ABSTRACT FROM AUTHOR]

Published

2024

6. NSVS 14256825: Period variation and orbital stability analysis of two possible substellar companions.

Author

Zervas, K. and Christopoulou, P.-E.

Subjects

*SPIN-orbit interactions, *N-body simulations (Astronomy), *ECLIPSING binaries, *PLANETARY mass, *PLANETARY systems, *CURVE fitting

Abstract

Context. Recent period investigations of the post-common envelop binary (PCEB) NSVS 14256825 suggest that two circumbinary companions are necessary to explain the observed eclipse timing variations (ETVs). Aims. Our objective in this work was to search for the best-fitting curve of two LTTE terms of the ETV diagram by implementing a grid search optimization scheme of Keplerian (kinematic) and Newtonian (N-body) fits alongside a dynamical stability analysis of N-body simulations. Methods. We compiled two datasets of archival photometric data covering different timelines and updated them with new observations and with three new times of minima calculated from the Transiting Exoplanet Survey Satellite (TESS). A grid search optimization process was implemented, and the resulting solutions that fell within the 90% confidence interval of the best-fitting curve of the ETV diagram were tested for orbital stability using N-body simulations and the MEGNO chaos indicator. Results. The Keplerian and Netwonian fits are in close agreement, and hundreds of stable configurations were identified for both datasets reaching a lifetime of 1 Myr. Our results suggest that the ETV data can be explained by the presence of a circumbinary planet with mass mb = 11 MJup in a nearly circular inner orbit of period Pb = 7 yr. The outer orbit is unconstrained with a period range Pc = 20 − 50 yr (from 3:1 to 7:1 MMR) for a circumbinary body of substellar mass (mc = 11 − 70 MJup). The stable solutions of the minimum- and maximum-reduced chi-square value were integrated for 100 Myr and confirmed a non-chaotic behavior. Their residuals in the ETV data could be explained by a spin-orbit coupling model (Applegate-Lanza). However, continuous monitoring of the system is required in order to refine and constrain the proposed solutions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Unexpected stratification in the equivalent-duration distributions of flare stars.

Author

Yoldaş, E and Dal, H A

Subjects

*ECLIPSING binaries, *STATISTICAL models, *DATA analysis, *TELESCOPES, *STATISTICS

Abstract

In this study, the results obtained from the statistical models of flares observed with ground-based telescopes and TESS observations for the UV Ceti-type stars AD Leo and V1005 Ori are presented. The distribution of flare equivalent duration versus total flare duration for the flares of both stars, observed with different telescopes, has been modelled using the one-phase exponential association (OPEA) model. Although no bifurcation was observed in the models derived with the flare data of V1005 Ori, the OPEA model exhibited bifurcation in almost all observation data of AD Leo. While many similar studies have shown that such models derived for a star do not vary over time and exhibit a single distribution in the same observation season, the stratification in AD Leo's distributions and consequently in its model is an unexpected result. [ABSTRACT FROM AUTHOR]

Published

2024

8. The only inflated brown dwarf in an eclipsing white dwarf–brown dwarf binary: WD1032+011B.

Author

French, Jenni R, Casewell, Sarah L, Amaro, Rachael C, Lothringer, Joshua D, Mayorga, L C, Littlefair, Stuart P, Lew, Ben W P, Zhou, Yifan, Apai, Daniel, Marley, Mark S, Parmentier, Vivien, and Tan, Xianyu

Subjects

*BROWN dwarf stars, *HOT Jupiters, *ECLIPSING binaries, *BRIGHTNESS temperature, *SPACE telescopes, *WHITE dwarf stars

Abstract

Due to their short orbital periods and relatively high-flux ratios, irradiated brown dwarfs in binaries with white dwarfs offer better opportunities to study irradiated atmospheres than hot Jupiters, which have lower planet-to-star flux ratios. WD1032+011 is an eclipsing, tidally locked white dwarf–brown dwarf binary with a 9950 K white dwarf orbited by a 69.7 M |$_{\text{Jup}}$| brown dwarf in a 0.09 d orbit. We present time-resolved Hubble Space Telescope Wide Field Camera 3 spectrophotometric data of WD1032+011. We isolate the phase-dependent spectra of WD1032+011B, finding a 210 K difference in brightness temperature between the dayside and nightside. The spectral type of the brown dwarf is identified as L1 peculiar, with atmospheric retrievals and comparison to field brown dwarfs showing evidence for a cloud-free atmosphere. The retrieved temperature of the dayside is 1748 |$^{+66}_{-67}$|  K, with a nightside temperature of 1555 |$^{+76}_{-62}$|  K, showing an irradiation-driven temperature contrast coupled with inefficient heat redistribution from the dayside to the nightside. The brown dwarf radius is inflated, likely due to the constant irradiation from the white dwarf, making it the only known inflated brown dwarf in an eclipsing white dwarf–brown dwarf binary. [ABSTRACT FROM AUTHOR]

Published

2024

9. Characterization of the δ Scuti eclipsing binary KIC 4851217 and its tertiary companion as well as detection of tidally tilted pulsations.

Author

Jennings, Z, Southworth, J, Rappaport, S A, Borkovits, T, Handler, G, and Kurtz, D W

Subjects

*STELLAR oscillations, *ECLIPSING binaries, *VARIABLE stars, *SPECTRAL energy distribution, *ASTEROSEISMOLOGY

Abstract

Stellar theory enables us to understand the properties of stars at different stages of their evolution, and contributes to other fields of astrophysics such as galactic and exoplanet studies. Assessing the accuracy of stellar theories necessitates high precision, model-independent measurements of the properties of real stars, such as those obtainable for the components of double-lined eclipsing binaries (DLEBs), while asteroseismology offers probing power of the stellar interior if one or both components pulsate. KIC 4851217 is a DLEB containing two late A-type stars and exhibits pulsations of the |$\delta$| Scuti type. By analysing high resolution HERMES and moderate resolution ISIS spectra, jointly with Kepler and Transiting Exoplanet Survey Satellite light curves, we measured the masses, radii, and effective temperatures of the components to precisions of |$\sim$| 0.5, |$\sim$| 1.1, and |$\sim$| 1 per cent, respectively. We additionally report the discovery and characterization of a tertiary M-dwarf companion. Models of the system's spectral energy distribution agree with an age of 0.82 Gyr, with the more massive and larger secondary component near the end of the main-sequence lifetime. An examination of the pulsating component's pulsation frequencies reveals 39 pulsation multiplets that are split by the orbital frequency. For most of these, it is evident that the pulsation axes have been tilted into the orbital plane. This makes KIC 4851217 a tidally tilted pulsator (TTP). This precisely characterized |$\delta$| Scuti DLEB is an ideal candidate for advancing intermediate-mass stellar theory, contributing to our understanding of hierarchical systems as well as to the topic of TTPs. [ABSTRACT FROM AUTHOR]

Published

2024

10. The YMDB catalog: Young massive detached binaries for the determination of high-precision absolute stellar parameters.

Author

Martín-Ravelo, Pablo, Gamen, Roberto, Arias, Julia I., Chené, André-Nicolas, and Barbá, Rodolfo H.

Subjects

*SUPERGIANT stars, *VARIABLE stars, *STELLAR evolution, *ECLIPSING binaries, *LITERATURE reviews

Abstract

Context. Massive stars play a crucial role in the cosmic dynamics and chemical evolution of galaxies. Despite their significance, our understanding of their evolution and properties remains limited. An accurate determination of stellar parameters, such as the mass and radius, is essential for advancing our knowledge. Detached eclipsing binaries (DEBs) are particularly valuable for these determinations due to the minimal interaction between their stellar components, allowing for precise measurements. Aims. This study aims to introduce the Young Massive Detached Binary (YMDB) catalog, designed to address the gap in the high-precision absolute parameter determination for young massive stars. By focusing on DEBs within the spectral range O9-B1, this catalog seeks to provide a reliable database for future astronomical studies and improve our understanding of massive star evolution. Methods. We conducted a photometric analysis of 87 young massive stars in detached eclipsing systems using TESS light curves (LCs) that were processed through a custom pipeline. This analysis involved determining the amplitude of magnitude variations, orbital periods, times of minima, eccentricities, and the presence of apsidal motion and heartbeat phenomena. A thorough literature review was performed to obtain MK spectral classifications. We performed our own spectral classification of 19 systems to support the sample where a new classification was lacking or inconclusive. Results. The analysis identified 20 previously unreported binary systems, with 13 newly recognized as variable stars. Among the 87 stars examined, 30 are confirmed as YMDB members, and 25 are candidates pending spectral classification. The exclusion of the remaining 32 stars is attributed to unsuitable spectral types or their nondetached binary nature. Notable findings include the identification of new LC classifications, eccentricities in 13 systems, and heartbeat phenomena in several targets. Conclusions. The YMDB catalog offers a resource of high-quality LCs and reliable stellar classifications, serving as a valuable tool for the astronomical community. [ABSTRACT FROM AUTHOR]

Published

2024

11. Spectroscopy of eclipsing compact hierarchical triples: I. Low-mass double-lined and triple-lined systems.

Author

Moharana, A., Hełminiak, K. G., Marcadon, F., Pawar, T., Pawar, G., Konacki, M., Jordán, A., Brahm, R., and Espinoza, N.

Subjects

*ECLIPSING binaries, *STELLAR evolution, *MULTIPLE stars, *STAR formation, *SOLAR system, *AGE of stars

Abstract

Context. Eclipsing compact hierarchical triples (CHTs) are systems in which a tertiary star orbits an eclipsing binary (EB) in an orbit of fewer than 1000 days. In a CHT, all three stars exist in a space that is less than 5 AU in radius. A low-mass CHT is an interesting case through which we can understand the formation of multiple stars and planets at such small scales. Aims. In this study, we combine spectroscopy and photometry to estimate the orbital, stellar, and atmospheric parameters of stars in a sample of CHTs. Using the complete set of parameters, we aim to constrain the metallicity and age of the systems. Methods. We used time-series spectroscopy to obtain radial velocities (RVs) and disentangled spectra. Using RV modelling, EB light curve modelling, and spectral analysis, we estimated the metallicities and temperatures. Using isochrone fitting, we constrained the ages of the system. We then combined observations of masses, outer eccentricities (e2), orbital periods, and age estimates of the systems from the literature. We compared the distributions of e2, and the tertiary mass ratio, q3 = M3/(M1 + M2), for three different metallicity ranges and two age ranges. Results. We have estimated the masses, radii, temperatures, metallicities, and ages of 12 stars in four CHTs. The CHT CD-32 6459 shows signs of von Zeipel-Lidov-Kozai oscillations, while CD-62 1257 can evolve to form a triple common envelope. The rest of the CHTs are old and have an M-dwarf tertiary. We find that the q3 distribution for CHTs with sub-solar metallicity has a uniform distribution but the systems with solar and above-solar metallicity peak between 0.5 and 1. When dividing them according to their ages, we find the q3 of old systems to be around 0.5. The eccentricity, e2, favours a value of around 0.3 irrespective of metallicity or age. The distributions of q3 and e2 resemble the distributions of the mass ratio and eccentricity of close field binaries. [ABSTRACT FROM AUTHOR]

Published

2024

12. Searching for new cataclysmic variables in the Chandra Source Catalog.

Author

Galiullin, Ilkham, Rodriguez, Antonio C., El-Badry, Kareem, Szkody, Paula, Anand, Abhijeet, van Roestel, Jan, Sibgatullin, Askar, Dodon, Vladislav, Tyrin, Nikita, Caiazzo, Ilaria, Graham, Matthew J., Laher, Russ R., Kulkarni, Shrinivas R., Prince, Thomas A., Riddle, Reed, Vanderbosch, Zachary P., and Wold, Avery

Subjects

*GALACTIC X-ray sources, *DWARF novae, *DWARF stars, *X-ray spectra, *ECLIPSING binaries, *CATACLYSMIC variable stars

Abstract

Aims. Cataclysmic variables (CVs) are compact binary systems in which a white dwarf accretes matter from a Roche-lobe-filling companion star. For this study we searched for new CVs in the Milky Way in the Chandra Source Catalog v2.0, cross-matched with Gaia Data Release 3 (DR3). Methods. We identified new CV candidates by combining X-ray and optical data in a color-color diagram called the X-ray main sequence. We used two different cuts in this diagram to compile pure and optically variable samples of CV candidates. We undertook optical spectroscopic follow-up observations with the Keck and Palomar Observatories to confirm the nature of these sources. Results. We assembled a sample of 25 887 Galactic X-ray sources and found 14 new CV candidates. Seven objects show X-ray and/or optical variability. All sources show X-ray luminosity in the 1029 − 1032 erg s−1 range, and their X-ray spectra can be approximated by a power-law model with photon indices in the Γ ∼ 1 − 3 range or an optically thin thermal emission model in the kT ∼ 1 − 70 keV range. We spectroscopically confirmed four CVs, discovering two new polars, one low accretion rate polar and a WZ Sge-like low accretion rate CV. X-ray and optical properties of the other nine objects suggest that they are also CVs (likely magnetic or dwarf novae), and one other object could be an eclipsing binary, but revealing their true nature requires further observations. Conclusions. These results show that a joint X-ray and optical analysis can be a powerful tool for finding new CVs in large X-ray and optical catalogs. X-ray observations such as those by Chandra are particularly efficient at discovering magnetic and low accretion rate CVs, which could be missed by purely optical surveys. [ABSTRACT FROM AUTHOR]

Published

2024

13. Apsidal motion and TESS light curves of three southern close eccentric eclipsing binaries: GM Nor, V397 Pup, and PT Vel.

Author

Wolf, M., Zasche, P., Kára, J., Zejda, M., Janík, J., Mašek, M., Lehký, M., Merc, J., Richterková, A., Hanžl, D., Mikulášek, Z., de Villiers, S. N., and Liška, J.

Subjects

*STELLAR structure, *STELLAR evolution, *ECCENTRICS (Machinery), *SPECTROMETRY, *LIGHT curves

Abstract

The study of apsidal motion in eccentric eclipsing binaries provides an important observational test of theoretical models of stellar structure and evolution. New ground-based and space-based photometric data have been obtained and archival spectroscopic measurements were used in this study of three detached early-type and southern-hemisphere eccentric eclipsing binaries GM Nor (P = 1d​​.88, e = 0.05), V397 Pup (3d​​.00, 0.30), and PT Vel (1d​​.80, 0.12). Their TESS observations in several sectors have also been included and the corresponding light curves were solved using the PHOEBE code. As a result, new accurate photoelectric times of minimum light have been obtained. The newly completed O − C diagrams were analyzed using all reliable timings found in the literature and calculated using the TESS light curves. New or improved values for the elements of apsidal motion were obtained. Using ESO archive spectroscopy, for V397 Pup, the precise absolute parameters were newly derived: M1 = 3.076(35) M⊙, M2 = 2.306(35) M⊙, and R1 = 2.711(55) R⊙, R2 = 1.680(55) R⊙. For PT Vel the absolute dimensions were improved: M1 = 2.204(25) M⊙, M2 = 1.638(25) M⊙, and R1 = 2.108(30) R⊙, R2 = 1.605(30) R⊙. For GM Nor, the less accurate absolute parameters based on the light curve analysis were evaluated: M1 = 1.94(15) M⊙, M2 = 1.84(14) M⊙, and R1 = 2.27(20) R⊙, R2 = 2.25(20) R⊙. We found more precise and relatively short periods of apsidal motion of about 80, 335, and 160 years, along with the corresponding internal structure constants, log k2, –2.524, –2.361, and –2.563, for GM Nor, V397 Pup, and PT Vel, respectively. Relativistic effects are small but not negligible, making up to 10% of the total apsidal motion rate in all systems. No marks of the presence of the third body were revealed in the light curves, on the O − C diagrams, or in the reduced spectra of the eccentric systems studied here. [ABSTRACT FROM AUTHOR]

Published

2024

14. High-resolution X-ray spectra of the compact binary supersoft X-ray source CAL 87.

Author

Pei, Songpeng, Zhang, Xiaowan, Li, Qiang, and Ou, Ziwei

Subjects

*X-ray spectra, *ECLIPSING binaries, *X-ray binaries, *MOLECULAR spectra, *X-rays

Abstract

In this study we present an analysis of the archival X-ray data of the eclipsing supersoft X-ray binary CAL 87 observed with the Chandra Advanced CCD Imaging Spectrometer (ACIS) camera and Low Energy Transmission Grating (LETG) in 2001 August and with XMM-Newton in 2003 April. The high-resolution X-ray spectra are almost unchanged on the two different dates. The average unabsorbed X-ray luminosity during the exposure was 4.64 − 5.46 × 1036 ergs s−1 in 2001 and 4.54 − 4.82 × 1036 ergs s−1 in 2003, with prominent and redshifted emission lines, mostly of nitrogen, oxygen, iron, and argon, contributing to at least 30% of the X-ray flux. The continuum X-ray flux is at least an order of magnitude too low for a hot hydrogen-burning white dwarf (WD). However, the continuum flux is consistent with Thomson-scattering reflecting about 5% of the light of a hydrogen-burning WD with effective temperature of 800 000 K and a mass of ∼1.2 M⊙. It has been noted that a large Thomson-scattering corona explains the X-ray eclipse of CAL 87, in which the size of the eclipsed region is found to be on the order of a solar radius. The emission lines originate in an even more extended region beyond the eclipsed central X-ray source; the emission spectrum is very complex, with unusual line ratios. [ABSTRACT FROM AUTHOR]

Published

2024

15. Five new eclipsing binaries with low-mass companions.

Author

Lipták, J., Skarka, M., Guenther, E., Chaturvedi, P., Vítková, M., Karjalainen, R., Šubjak, J., Hatzes, A., Bieryla, A., Gandolfi, D., Albrecht, S. H., Beck, P. G., Deeg, H. J., Everett, M. E., Higuera, J., Jones, D., Mathur, S., Patel, Y. G., Persson, C. M., and Redfield, S.

Subjects

*DWARF stars, *LOW mass stars, *ORBITS (Astronomy), *EXTRASOLAR planets, *PHOTOMETRY

Abstract

Precise space-based photometry from the Transiting Exoplanet Survey Satellite results in a huge number of exoplanetary candidates. However, the masses of these objects are unknown and must be determined by ground-based spectroscopic follow-up observations, frequently revealing the companions to be low-mass stars rather than exoplanets. We present the first orbital and stellar parameter solutions for five such eclipsing binary-star systems using radial-velocity follow-up measurements together with spectral-energy-distribution solutions. TOI-416 and TOI-1143 are totally eclipsing F+M star systems with well-determined secondary masses, radii, and temperatures. TOI-416 is a circular system with an F6 primary and a secondary with a mass of M2 = 0.131(8) M⊙. TOI-1143 consists of an F6 primary with an M2 = 0.142(3) M⊙ secondary on an eccentric orbit with a third companion. With respect to the other systems, TOI-1153 shows ellipsoidal variations, TOI-1615 contains a pulsating primary, and TOI-1788 has a spotted primary, while all have moderate mass ratios of 0.2–0.4. However, these systems are in a grazing configuration, which limits their full description. The parameters of TOI-416B and TOI-1143B are suitable for the calibration of the radius-mass relation for dwarf stars. [ABSTRACT FROM AUTHOR]

Published

2024

16. A new code for low-resolution spectral identification of white dwarf binary candidates.

Author

Liu, Genghao, Tang, Baitian, Ren, Liangliang, Li, Chengyuan, Cheng, Sihao, Zong, Weikai, Fu, Jianning, Ma, Bo, Xu, Cheng, and Hu, Yiming

Subjects

*ARTIFICIAL neural networks, *STELLAR evolution, *TYPE I supernovae, *DISTRIBUTION (Probability theory), *ECLIPSING binaries, *WHITE dwarf stars

Abstract

Context. Close white dwarf binaries (CWDBs) are considered to be progenitors of several exotic astronomical phenomena (e.g., type Ia supernovae, cataclysmic variables). These violent events are broadly used in studies of general relativity and cosmology. However, obtaining precise stellar parameter measurements for both components of CWDBs is a challenging task given their low luminosities, swift time variation, and complex orbits. High-resolution spectra (R > 20 000) are preferred but expensive, resulting in a sample size that is insufficient for robust population study. Recently, studies have shown that the more accessible low-resolution (R ~ 2000) spectra (LRS) may also provide enough information for spectral decomposition. To release the full potential of the less expensive low-resolution spectroscopic surveys, and thus greatly expand the CWDB sample size, it is necessary to develop a robust pipeline for spectra decomposition and analysis. Aims. We aim to develop a spectroscopic fitting program for white dwarf binary systems based on photometry, LRS, and stellar evolutionary models. The outputs include stellar parameters of both companions in the binary including effective temperature, surface gravity, mass, radius, and metallicity in the case of MS stars. Methods. We used an artificial neural network (ANN) to build spectrum generators for DA/DB white dwarfs and main-sequence stars. Characteristic spectral lines were used to decompose the spectrum of each component. The best-fit stellar parameters were obtained by finding the least χ2 solution to these feature lines and the continuum simultaneously. Compared to previous studies, our code is innovative in the following aspects: (1) implementing a sophisticated binary decomposition technique in LRS for the first time; (2) using flux-calibrated spectra instead of photometry plus spectral lines, in which the latter requires multi-epoch observations; (3) applying an ANN in binary decomposition, which significantly improves the efficiency and accuracy of generated spectra. Results. We demonstrate the reliability of our code with two well-studied CWDBs, WD 1534+503 and PG 1224+309. We also estimate the stellar parameters of 14 newly identified CWDB candidates, most of which are fitted with double component models for the first time. Our estimates agree with previous results for the common stars and follow the statistical distribution in the literature. Conclusions. We provide a robust program for fitting binary spectra of various resolutions. Its application to a large volume of white dwarf binary candidates will offer important statistic samples to stellar evolution studies and future gravitational wave monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

17. Revealing the state transition of Cen X-3 at high spectral resolution with Chandra.

Author

Sanjurjo-Ferrín, G., Torrejón, J. M., Oskinova, L., Postnov, K., Rodes-Roca, J. J., Schulz, N., and Nowak, M.

Subjects

*CIRCUMSTELLAR matter, *ROCHE equipotentials, *ECLIPSING binaries, *X-ray binaries, *NEUTRON stars

Abstract

Cen X-3 is a compact, high-mass X-ray binary (HMXRB), likely powered by Roche lobe overflow. We present a phase-resolved X-ray spectral and timing analysis of a target of opportunity Chandra observation made during a low-flux to high-flux transition. The high-resolution spectra allow us to delve into the events that occurred during this episode. The spectrum is described by a single black body absorbed by a local column density of the order of 1023 − 24 cm−2, which is one to two orders of magnitude higher than found for previous analyses of data taken at similar orbital phases. Such a large column produces a Compton shoulder in the Fe Kα line. The transition appears to be caused by the onset of efficient cooling, which cools the plasma by 10 million degrees in just 10 ks, allowing matter to enter the magnetosphere. This happens after a major disturbance, probably the arrival of a train of wind clumps with individual masses in the range 1019 − 20 g. This train moves ballistically in an eccentric orbit around the NS, producing a distinctive Doppler modulation in the Fe XXV line. [ABSTRACT FROM AUTHOR]

Published

2024

18. Lifetime of starspots on detached eclipsing binaries: Detecting the effects of tides on stellar activity.

Author

Wang, Jiaxin, Pan, Yang, Fu, Jianning, Zong, Peng, Zong, Weikai, Cang, Tianqi, Zhang, Bo, and Pan, Yu

Subjects

*STELLAR rotation, *STELLAR activity, *STELLAR structure, *STARSPOTS, *BINARY stars

Abstract

Context. Tidal deformation breaks the axisymmetric structure of stars, and this may affect stellar activity. This effect has been demonstrated in theoretical analyses and simulations, but it lacks observational support. In this paper, we use spot-modulated detached binaries to study the effect of tides on stellar activity. We show this effect by analyzing the properties of the spot lifetime, the harmonic decay timescale, and the orbital parameters. Aims. We aim to explore the differences in spot lifetimes between binaries and single stars, the main mechanisms of spot decay in binaries, and the correlation between orbital parameters and spot lifetimes. These differences will provide clues to the effect of tides on stellar activity. Methods. We collected data of 311 spot-modulated detached binaries and 3272 single stars. The relative orbital parameters of the binaries were derived by combining Kepler photometry, stellar atmospheric parameters from LAMOST DR9 and Gaia DR3, and 2MASS photometry. We then used the ACF method to obtain the rotational periods, lifetimes, and harmonic decay timescales. Finally, we analyzed the correlation between the lifetime of spots and orbital parameters, explored the dominant decay mechanism of spots, and examined the differences in spots for binaries and single stars. Results. The relative lifetime of a starspot is correlated with the sum of the fractional radii, the orbital eccentricity, and the synchronization ratio. Longer lifetimes are observed in close, circular, and synchronous binaries than in the other binaries. The main mechanism for the decay of star spots in binaries is large-scale convective motion. However, on close, cool, and fast-rotating binaries, horizontal diffusion or subphotospheric diffusion are dominant. Compared to single stars, the median lifetime of a starspot on binaries was found to be longer. Moreover, this difference decreases with rotation period. Additionally, it should be noted that spots on binaries experience increased horizontal or subphotospheric diffusion at the same rotation period and effective temperature. Conclusions. According to the observation results, we conclude that the lifetime of starspots on detached close binaries is affected by tidal interactions. [ABSTRACT FROM AUTHOR]

Published

2024

19. Empirical instability strip for pre-He WD in EL CVn type binary systems.

Author

Çakırlı, Ö, Hoyman, B, and Özdarcan, O

Subjects

*ECLIPSING binaries, *STELLAR evolution, *LIGHT curves, *STELLAR mass, *ASTEROSEISMOLOGY, *WHITE dwarf stars

Abstract

We present the Transiting Exoplanet Survey Satellite (TESS) photometry and high-resolution spectra of the EL CVn-type systems, which consists of an A/F-type main-sequence (MS) star and a hotter low-mass helium white dwarf precursor (pre-He WD). In the spectral analysis, double-lined radial velocities (RVs) were obtained for the first time. From a simultaneous analysis of the TESS light and RV curves, the masses, radii, and temperatures of each component were determined. We applied multiple frequency analyses to the residual light curve after subtracting the binarity effects and detected independent frequencies. We found that the low-frequency region's frequencies resembled those of |$\delta$|  Sct-type stars, while the high-frequency region's frequencies (100–300 d |$^{-1}$|⁠) likely correspond to pre-He WD components. According to our research, we found that in nine systems, the primary star with higher mass showed pulsation characteristics similar to a |$\delta$| -Sct-type. In only three systems, the hotter secondary components consisted of a pre-He WD with high-frequency pulsations. We examine the purity of pre-He WD instability strip by studying several EL CVn-type systems. Additionally, we propose new boundaries for the empirical instability strips of pre-He WDs. [ABSTRACT FROM AUTHOR]

Published

2024

20. Study of consecutive eclipses of pulsar J0024-7204O.

Author

Abbate, F, Possenti, A, Ridolfi, A, Buchner, S, Geyer, M, Kramer, M, Zhang, L, Corongiu, A, Camilo, F, and Bailes, M

Subjects

*LINEAR polarization, *GLOBULAR clusters, *RADIO telescopes, *ECLIPSING binaries, *SHORTWAVE radio

Abstract

The eclipses seen in the radio emission of some pulsars can be invaluable to study the properties of the material from the companion stripped away by the pulsar. We present a study of six consecutive eclipses of PSR J0024–7204O in the globular cluster 47 Tucanae as seen by the MeerKAT radio telescope in the UHF (544–1088 MHz) band. A high scintillation state boosted the signal during one of the orbits and allowed a detailed study of the eclipse properties. We measure significant dispersion measure (DM) variations and detect strong scattering that seems to be the dominating mechanism of the eclipses at these frequencies. A complete drop in the linear polarization together with a small increase in the rotation measure suggests the presence of a magnetic field of |$\sim 2$|  mG. The study of multiple eclipses allowed us to measure difference in the lengths of the eclipses and DM differences of |$\sim 0.01$|  pc cm |$^{-3}$| in consecutive orbits. One orbit, in particular, shows a delay in recovery of the linear polarization and a visible delay in the arrival of the pulses caused by a stronger scattering event. We suggest that these are caused by a higher variance of density fluctuations during the event. [ABSTRACT FROM AUTHOR]

Published

2024

21. Dynamical mass determination and partial eclipses of the heartbeat star HD 181793.

Author

Uronen, Laura E, Cameron, Andrew Collier, and Wilson, Thomas G

Subjects

*SPECTRAL energy distribution, *STELLAR mass, *LIGHT curves, *PARALLAX, *PHOTOMETRY

Abstract

We identify the bright Am-type star HD 181793 to be a previously unknown eclipsing, chemically peculiar heartbeat binary, the second of its kind known. The system carries an orbital period of |$P = 11.47578275 \pm 0.00000055$| d. We use TESS photometry and LCOGT NRES radial velocity data to build a self-consistent orbital model and determine the fundamental stellar characteristics of the primary. We use a spectral separation method to unveil the secondary and measure the masses of both stars. The radial velocity amplitude of the primary, |$K_1 = 47.41\, {^ {+0.13}}_ {-0.12}$| km s−1, gives a mass |$M_1 = 1.57 \pm 0.01$|  M |$_\odot$|⁠. The secondary radial velocity amplitude |$K_2 = 84.95\, {^ {+0.12}}_ {-0.09}$| km s−1 yields a mass ratio |$q = 0.558 \pm 0.002$| and a secondary mass |$M_2 = 0.87 \pm 0.01$| M |$_\odot$|⁠. From the spectral energy distribution and Gaia parallax, we find a radius |$R_1 = 2.04 \pm 0.05$|  R |$_\odot$|⁠. The grazing transit profile and spectroscopic luminosity ratio indicate |$R_2 = 1.04\, {^ {+0.15}}_ {-0.10}$|  R |$_\odot$|⁠ , suggesting an early-K spectral type. We show that the heartbeat feature in the TESS light curve can be explained by time-varying ellipsoidal variation, driven by the orbital eccentricity of |$e = 0.3056\, {^ {+0.0024}}_ {-0.0026}$|⁠ , and relativistic beaming of the light of the primary. We find no evidence of tidally excited oscillations. [ABSTRACT FROM AUTHOR]

Published

2024

22. Comprehensive analysis of the eclipsing binaries V527 Dra and V2846 Cyg.

Author

Čeki, Atila, Şenavcı, Hakan Volkan, Latković, Olivera, Uzunçam, Ebru, Yorulmaz, Eda Burcu, and Bahar, Engin

Subjects

*LIGHT curves, *ECLIPSING binaries, *DATA modeling, *STELLAR activity

Abstract

This is the first comprehensive study of the eclipsing binaries V527 Dra and V2846 Cyg, based on radial velocities and ground- and space-based light curves. We perform detailed modeling of these data to derive the absolute parameters and the orbital properties of the two systems. V527 Dra is found to be a semidetached, and V2846 Cyg a contact binary. Both show continual out-of-eclipse variations that can be explained by migrating dark spots of magnetic origin. We also perform the eclipse timing variation (ETV) analysis which reveals that V527 Dra has a tertiary companion whose mass (⁠|${\sim} 1 \,{\rm M}_{\odot }$|⁠) and orbital inclination (⁠|${\sim} 70^{\circ }$|⁠) are additionally constrained by radial velocities. The ETV diagram of V2846 Cyg displays a quadratic trend accompanied by a low-amplitude cyclic variation, likely due to a magnetic cycle, although further eclipse times are needed to provide a clearer explanation. Lastly, we demonstrate a correlation between the variations in spot parameters obtained via light curve modelling for individual orbital cycles and the residual ETVs, essentially confirming the assumption of magnetic activity in both systems. [ABSTRACT FROM AUTHOR]

Published

2024

23. Constraining the helium-to-metal enrichment ratio ΔY/ΔZ from main-sequence binary stars: Theoretical analysis of the accuracy and precision of the age and helium abundance estimates.

Author

Valle, G., Dell'Omodarme, M., Prada Moroni, P. G., and Degl'Innocenti, S.

Subjects

*STELLAR evolution, *TEMPERATURE of stars, *MAIN sequence (Astronomy), *MONTE Carlo method, *BINARY stars

Abstract

Aims. We aim to investigate the theoretical possibility of accurately determining the helium-to-metal enrichment ratio ΔY/ΔZ from precise observations of double-lined eclipsing binary systems. Methods. Using Monte Carlo simulations, we drew synthetic binary systems with masses between 0.85 and 1.00 M⊙ from a grid of stellar models. Both stars were sampled from a grid with ΔY/ΔZ = 2.0, with a primary star at 80% of its main-sequence evolution. Subsequently, a broader grid with ΔY/ΔZ from 1.0 to 3.0 was used in the fitting process. To account for observational uncertainties, two scenarios were explored: S1, with realistic uncertainties of 100 K in temperature and 0.1 dex in [Fe/H]; and S2, with halved uncertainties. We repeated the simulation at two baseline metallicities: [Fe/H] = 0.0 and −0.3. Results. The posterior distributions of ΔY/ΔZ revealed significant biases. The distributions were severely biased towards the edge of the allowable range in the S1 error scenario. The situation only marginally improved when considering the S2 scenario. The effect is due to the impact of changing ΔY/ΔZ in the stellar effective temperature and its interplay with [Fe/H] observational error, and it is therefore not restricted to the specific fitting method. Despite the presence of these systematic discrepancies, the age of the systems were recovered unbiased with 10% precision. Conclusions. Our findings indicate that the observational uncertainty in effective temperature and metallicity significantly hinders the accurate determination of the ΔY/ΔZ parameter from main-sequence binary systems. [ABSTRACT FROM AUTHOR]

Published

2024

24. Eight new 2+2 doubly eclipsing quadruple systems detected.

Author

Zasche, P., Henzl, Z., Merc, J., Kára, J., and Kučáková, H.

Subjects

*SMALL magellanic cloud, *WOLF-Rayet stars, *ANGULAR distance, *STARS, *DETECTION limit

Abstract

We studied eight new doubly eclipsing stellar systems. We found that they are all rare examples of quadruple systems of 2 + 2 architecture, where both inner pairs are eclipsing binaries. Until now, such a configuration had only been proven for dozens of systems on the whole sky. We enlarged this rare group of systems with four stars in the Small Magellanic Cloud (SMC) galaxy and four brighter stars on the northern sky. These analysed systems are the following: OGLE SMC-ECL-2339 (both eclipsing periods of 0.72884 days and 3.39576 days; mutual orbital period of 5.95 years); OGLE SMC-ECL-3075 (1.35890 d, 2.41587 d, 9.75 yr); OGLE SMC-ECL-4756 (0.91773 d, 2.06047 d, 4.34 yr); OGLE SMC-ECL-6093 (0.90193 d, 2.03033 d, 31.2 yr); GSC 01949-01700 (0.24058 d, 0.75834 d, 21.7 yr); ZTF J171602.61+273606.5 (0.36001 d, 4.51545 d, 19.5 yr); WISE J210935.8+390501 (0.33228 d, 3.51575 d, 1.9 yr); and V597 And (0.46770 d, 0.35250, 20.4 yr). These systems constitute a rare selection of W UMa stars among the doubly eclipsing quadruples. For all of the systems, new dedicated observations were obtained as well. V597 And is definitely the most interesting system for several reasons: (1) the system is the brightest in our sample; (2) it is a rare quintuple (2 + 2) + 1 system; and (3) it is also closest to the Sun. It yielded the predicted angular separation of the two components of 57 mas, which is probably within the detection limits for modern, high-angular-resolution techniques. [ABSTRACT FROM AUTHOR]

Published

2024

25. An approach to the effects of stellar rotation on the theoretical apsidal motion constants: Calculations from 0.40 M⊙ to 25.0 M⊙.

Author

Claret, A.

Subjects

*STELLAR rotation, *ECLIPSING binaries, *STELLAR evolution, *STELLAR mass, *EQUATIONS of state

Abstract

Aims. The most reliable sources for determining absolute stellar parameters are the double-lined eclipsing binary systems. Some of these systems also show apsidal motion, characterized by the variable log k2. This point grants us the possibility of investigating the stellar interior, specifically the degree of stellar mass concentration. The first studies carried out about four decades ago on this topic showed appreciable discrepancies not only with respect to the comparison between the observed absolute dimensions and their theoretical counterparts, but mainly concerning the degree of mass concentration through the analysis of their apsidal motions. Fortunately, this scenario has been gradually improving with the advances in the quality of observational techniques and advances in the input physics of the evolutionary stellar models (e.g. opacities, thermonuclear reactions, equations of state, numerical techniques). These new developments in the input physics has improved the comparison between observations and the values predicted by theory, including the apsidal motion rates. This progress has lead us to investigate second-order effects such as rotation and dynamic tides. In this paper we deal with the effects of rotation on the degree of mass concentration. Methods. The stellar models were calculated using the MESA package. The mass range studied here was 0.40–25.0 M⊙ for a generic chemical composition characterized by X = 0.70 and Z = 0.02. The present models were computed without taking into account core overshooting in order to highlight the effects of rotation. Each model was followed from the pre-main sequence until the central hydrogen content is of the order of or less than 0.03, covering the range of masses and evolutionary status of the double-lined eclipsing binaries showing apsidal motion. Regarding the calculation of the internal structure coefficients, we integrated the Radau equation using the fifth-order Runge-Kutta method and a tolerance level of 10−7. As an auxiliary tool, homology transformations have been used to explain, qualitatively, how the equation of state, thermonuclear reactions, and convection impact the degree of mass concentration of the models. Results. In our past studies on the effects of rotation on log k2 an average correction was used for all models together. For this a small range of masses (2.0, 7.0, 15.0 M⊙) has been used. In the present paper the corrections due to the effects of rotation in log k2 are presented for each mass individually and for three evolutionary phases. This point is particularly important, given that these corrections show a clear dependence on the mass and on the evolutionary status. Such corrections can be easily introduced into the theoretical calculation of apsidal motion rates through a linear equation. A typical correction due to the rotation effects is of the order of −0.03 in log k2. [ABSTRACT FROM AUTHOR]

Published

2024

26. Temporal and spectral variations of the X-ray pulsar Cen X-3 observed by NuSTAR.

Author

Liu, Qi, Wang, Wei, Santangelo, Andrea, Kong, Lingda, Ji, Long, and Ducci, Lorenzo

Subjects

*STELLAR winds, *BINARY pulsars, *ENERGY bands, *ECLIPSING binaries, *NEUTRON stars

Abstract

We report a time-resolved analysis of the accreting X-ray pulsar Cen X-3 using observations carried out by NuSTAR, which cover approximately two binary orbits in different intensity states. The pulse profile is relatively stable over the orbital phase and shows energy dependence. It has an obvious double-peaked shape in the energy band below 15 keV –with the second pulse peak decreasing as energy increases– and is gradually dominated by a single peak in higher energy bands. We find that the pulse profile in the energy band of 3–5 keV at high-intensity states shows a subtle triple-peaked shape, with the main peak divided into two subpeaks. We also find a positive correlation between the pulse fraction and both energy and flux. Our spectral analysis reveals that the spectra can be well described by the continuum of Fermi-Dirac cutoff and NPEX models, and the cyclotron line is detected with the centroid energies varying from 26 keV to 29 keV, along with the iron emission line around 6.4 keV. We investigated the dependence between the cyclotron resonant scattering feature (CRSF) centroid energy and luminosity and discuss the theoretical critical luminosity. Although the variation of Ecyc − LX is not distinct, there is a possibility that the critical luminosity lies within the range of ∼(0.5 − 4)×1037 erg s−1 in the band of 4–78 keV. The photon index shows a strong positive correlation with luminosity. Our orbital-phase analysis reveals that the spectral parameters show orbital variability, and the highly variable photoelectric absorption may indicate the existence of clumpy stellar winds. [ABSTRACT FROM AUTHOR]

Published

2024

27. Absolute dimensions of solar-type eclipsing binaries: NY Hya: A test for magnetic stellar evolution models.

Author

Hinse, T. C., Baştürk, Ö., Southworth, J., Feiden, G. A., Tregloan-Reed, J., Kostov, V. B., Livingston, J., Esmer, E. M., Yılmaz, M., Yalçınkaya, S., Torun, Ş., Vos, J., Evans, D. F., Morales, J. C., Wolf, J. C. A., Olsen, E. H., Clausen, J. V., Helt, B. E., Lý, C. T. K., and Stahl, O.

Subjects

*ECLIPSING binaries, *STELLAR mass, *SPECTRAL energy distribution, *TEMPERATURE of stars, *TIME series analysis, *STELLAR evolution

Abstract

Context. The binary star NY Hya is a bright, detached, double-lined eclipsing system with an orbital period of just under five days with two components each nearly identical to the Sun and located in the solar neighbourhood. Aims. The objective of this study is to test and confront various stellar evolution models for solar-type stars based on accurate measurements of stellar mass and radius. Methods. We present new ground-based spectroscopic and photometric as well as high-precision space-based photometric and astrometric data from which we derive orbital as well as physical properties of the components via the method of least-squares minimisation based on a standard binary model valid for two detached components. Classic statistical techniques were invoked to test the significance of model parameters. Additional empirical evidence was compiled from the public domain; the derived system properties were compared with archival broad-band photometry data enabling a measurement of the system's spectral energy distribution that allowed an independent estimate of stellar properties. We also utilised semi-empirical calibration methods to derive atmospheric properties from Strömgren photometry and related colour indices. Results. We measured (percentages are fractional uncertainties) masses, radii, and effective temperatures of the two stars in NY Hya and found them to be MA = 1.1605 ± 0.0090 M⊙ (0.78%), RA = 1.407 ± 0.015 R⊙ (1.1%), Teff, A = 5595 ± 61 K (1.09%), MB = 1.1678 ± 0.0096 M⊙ (0.82%), RB = 1.406 ± 0.017 R⊙ (1.2%), and Teff, B = 5607 ± 61 K (1.09%). The atmospheric properties from Strömgren photometry agree well with spectroscopic results. No evidence was found for nearby companions from high-resolution imaging. A detailed analysis of space-based data revealed a small but significant eccentricity (e cos ω) of the orbit. The spectroscopic and frequency analysis on photometric time series data reveal evidence of clear photospheric activity on both components likely in the form of star spots caused by magnetic activity. Conclusions. We confronted the observed physical properties with classic and magnetic stellar evolution models. Classic models yielded both young pre-main-sequence and old main-sequence turn-off solutions with the two components at super-solar metallicities, in disagreement with observations. Based on chromospheric activity and X-ray observations, we invoke magnetic models. While magnetic fields are likely to play an important role, we still encounter problems in explaining adequately the observed properties. To reconcile the observed tensions we also considered the effects of star spots known to mimic magnetic inhibition of convection. Encouraging results were obtained, although unrealistically large spots were required on each component. Overall we conclude that NY Hya proves to be complex in nature, and requires additional follow-up work aiming at a more accurate determination of stellar effective temperature and metallicity. [ABSTRACT FROM AUTHOR]

Published

2024

28. Fundamental effective temperature measurements for eclipsing binary stars – V. The circumbinary planet system EBLM J0608–59.

Author

Maxted, P F L, Miller, N J, Sebastian, D, Triaud, A H M J, Martin, D V, and Duck, A

Subjects

*ECLIPSING binaries, *TEMPERATURE measurements, *PARALLAX, *ORBITS (Astronomy), *ASTRONOMICAL transits, *MASS measurement

Abstract

EBLM J0608 |$-$| 59/TOI-1338/BEBOP-1 is a 12 |$^{\rm th}$| -magnitude, F9 V star in an eclipsing binary with a much fainter M dwarf companion on a wide, eccentric orbit (P  = 14.6 d). The binary is orbited by two circumbinary planets: one transiting on a 95-d orbit and one non-transiting on a 215-d orbit. We have used high-precision photometry from the TESS mission combined with direct mass measurements for the two stars published recently to measure the following model-independent radii: |$R_1 = 1.32 \pm 0.02 {\rm R}_{\odot }$|⁠ , |$R_2 = 0.309 \pm 0.004 {\rm R}_{\odot }$|⁠. Using |$R_1$| and the parallax from Gaia EDR3, we find that this star's angular diameter is |$\theta = 0.0309 \pm 0.0005$|  mas. The apparent bolometric flux of the primary star corrected for both extinction and the contribution from the M dwarf (⁠|$\lt 0.4$|  per cent) is |${\mathcal {F}}_{{\oplus },0} = (0.417\pm 0.005)\times 10^{-9}$|  erg cm |$^{-2}$|  s |$^{-1}$|⁠. Hence, this F9 V star has an effective temperature |$T_{\rm eff,1} = 6031{\rm \, K} \pm 46{\rm \, K\, (rnd.)} \pm 10 {\rm \, K\, (sys.)}$|⁠. EBLM J0608 |$-$| 59 is an ideal benchmark star that can be added to the sample of such systems we are establishing for 'end-to-end' tests of the stellar parameters measured by large-scale spectroscopic surveys. [ABSTRACT FROM AUTHOR]

Published

2024

29. 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, and French, Jenni R

Subjects

*STELLAR mass, *PLANETS, *PLANETARY orbits, *PLANETARY systems, *SPECTROGRAPHS

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. [ABSTRACT FROM AUTHOR]

Published

2024

30. TESS light-curve modelling and period study of four eclipsing binaries.

Author

Yang, Yuangui and Wang, Shuang

Subjects

*ECLIPSING binaries, *ROCHE equipotentials, *LIGHT curves, *ORBITS (Astronomy), *STARSPOTS

Abstract

We reported the light curves (LCs) and orbital period variations of four short-period eclipsing binaries in the Southern hemisphere. From short-cadence time-series observations of the TESS, the intrinsic light changes rapidly with time. Δ m max and Δ m min exhibit random wave-like variations or quasi-periodicities. We deduced 14 sets of photometric solutions from the truncated LCs using the W-D programme. The results imply that V757 Cen and BC Gru are near-contact binaries, whose one or two components almost fill the Roche lobes with |$f\gt 98{{\ \rm per\ cent}}$|⁠. Meanwhile, V535 Ara and AQ Tuc are A-subtype contact binaries. The asymmetric LCs were modelled by a cool spot assumed on a more massive component, which was used to track the stellar longitudes of star-spots. Based on all available eclipsing times (ETs), including 1495 ones from TESS LCs, the orbital period variations of four binaries were analysed. The (O − C) curves are coincidentally demonstrated by the light-time effect via the presence of the third bodies. The modulation periods approximate to 50 ∼ 60 yr. In the coplanar orbit with the central binaries, the third companions' masses are 0.105 M⊙ for V757 Cen, 0.340 M⊙ for BC Gru, 0.238 M⊙ for V535 Ara, and 0.343 M⊙ for AQ Tuc, whose systems are stable according to Harrington's criterion. Therefore, the four short-period eclipsing binaries, V757 Cen, BC Gru, V535 Ara, and AQ Tuc are hierarchical triple stellar systems. [ABSTRACT FROM AUTHOR]

Published

2024

31. An approach to the effects of stellar rotation on the theoretical apsidal motion constants: Calculations from 0.40 M⊙ to 25.0 M⊙.

Author

Claret, A.

Subjects

STELLAR rotation, ECLIPSING binaries, STELLAR evolution, STELLAR mass, EQUATIONS of state

Abstract

Aims. The most reliable sources for determining absolute stellar parameters are the double-lined eclipsing binary systems. Some of these systems also show apsidal motion, characterized by the variable log k2. This point grants us the possibility of investigating the stellar interior, specifically the degree of stellar mass concentration. The first studies carried out about four decades ago on this topic showed appreciable discrepancies not only with respect to the comparison between the observed absolute dimensions and their theoretical counterparts, but mainly concerning the degree of mass concentration through the analysis of their apsidal motions. Fortunately, this scenario has been gradually improving with the advances in the quality of observational techniques and advances in the input physics of the evolutionary stellar models (e.g. opacities, thermonuclear reactions, equations of state, numerical techniques). These new developments in the input physics has improved the comparison between observations and the values predicted by theory, including the apsidal motion rates. This progress has lead us to investigate second-order effects such as rotation and dynamic tides. In this paper we deal with the effects of rotation on the degree of mass concentration. Methods. The stellar models were calculated using the MESA package. The mass range studied here was 0.40–25.0 M⊙ for a generic chemical composition characterized by X = 0.70 and Z = 0.02. The present models were computed without taking into account core overshooting in order to highlight the effects of rotation. Each model was followed from the pre-main sequence until the central hydrogen content is of the order of or less than 0.03, covering the range of masses and evolutionary status of the double-lined eclipsing binaries showing apsidal motion. Regarding the calculation of the internal structure coefficients, we integrated the Radau equation using the fifth-order Runge-Kutta method and a tolerance level of 10−7. As an auxiliary tool, homology transformations have been used to explain, qualitatively, how the equation of state, thermonuclear reactions, and convection impact the degree of mass concentration of the models. Results. In our past studies on the effects of rotation on log k2 an average correction was used for all models together. For this a small range of masses (2.0, 7.0, 15.0 M⊙) has been used. In the present paper the corrections due to the effects of rotation in log k2 are presented for each mass individually and for three evolutionary phases. This point is particularly important, given that these corrections show a clear dependence on the mass and on the evolutionary status. Such corrections can be easily introduced into the theoretical calculation of apsidal motion rates through a linear equation. A typical correction due to the rotation effects is of the order of −0.03 in log k2. [ABSTRACT FROM AUTHOR]

Published

2024

32. The first low-mass eclipsing binary within the fully convective zone from TMTS.

Author

Liu, Cheng, Wang, Xiaofeng, Zhang, Xiaobing, Kovalev, Mikhail, Lin, Jie, Xi, Gaobo, Mo, Jun, Li, Gaici, Peng, Haowei, Li, Xin, Xia, Qiqi, Iskandar, Abdusamatjan, Zeng, Xiangyun, Wang, Letian, Zhu, Liying, Song, Xuan, Guo, Jincheng, Jiang, Xiaojun, Yan, Shengyu, and Zhang, Jicheng

Subjects

*ECLIPSING binaries, *STELLAR evolution, *LIGHT curves, *LOW mass stars, *CURVE fitting, *STELLAR activity, *DWARF stars

Abstract

We present a comprehensive photometric and spectroscopic analysis of the short-period (∼5.32 h) and low-mass eclipsing binary TMTSJ0803 discovered by Tsinghua-Ma Huateng Telescope for Survey (TMTS). By fitting the light curves and radial velocity data with the Wilson–Devinney code, we find that the binary is composed of two late spotted active M dwarfs below the fully convective boundary. This is supported by the discovery of a significant Balmer emission lines in the LAMOST spectrum and prominent coronal X-ray emission. In comparison with the typical luminosity of rapidly rotating fully convective stars, the much brighter X-ray luminosity (L X/ L bol = 0.0159 ± 0.0059) suggests the stellar magnetic activity of fully convective stars could be enhanced in such a close binary system. Given the metallicity of [M/H] = − 0.35 dex as inferred from the LAMOST spectrum, we measure the masses and radii of both stars to be M 1 = 0.169 ± 0.010 M⊙, M 2 = 0.162 ± 0.016 M⊙, R 1 = 0.170 ± 0.006 R⊙, and R 2 = 0.156 ± 0.006 R⊙, respectively. Based on the luminosity ratio from the light-curve modelling, the effective temperatures of two components are also estimated. In comparison with the stellar evolution models, the radii, and effective temperatures of two components are all below the isochrones. The radius deflation might be mainly biased by a small radial velocity (RV) data or (and) a simple correction on RVs, while the discrepancy in effective temperature might be due to the enhanced magnetic activity in this binary. [ABSTRACT FROM AUTHOR]

Published

2024

33. Orbital period change of SW Sex star TT Tri.

Author

Fang, Xiaohui, Wang, Qishan, and Qian, Shengbang

Subjects

*ANGULAR momentum (Mechanics), *CATACLYSMIC variable stars, *LOW mass stars, *FISCAL year, *STELLAR evolution, *ECLIPSING binaries

Abstract

SW Sex-type stars are the dominate population of cataclysmic variables (CVs) just above the period gap and are vital for understanding of CV evolution. We have monitored TT Tri for nearly 15 yr, and more observations yield a more reliable estimation for its orbital period variation. In this work, we present a detailed analysis about its orbital period variation. TT Tri experiences a rapid period decay with a decay rate of |$-5.67\times 10^{-11}\, \mathrm{s/s}$| plus a period oscillation at about 9.6 yr. The oscillation could be caused by the magnetic activities of the low-mass star or/and a circumbinary body, while the rapid period decrease cannot be accounted for by the magnetic braking or even including an intensive disc wind. We find that mass overflow though the L 3 point can take the angular momentum away effectively and that this mass overflow could account for the rapid period decay observed in TT Tri. We propose that this kind of angular momentum loss may play a crucial role in CV evolution, and further research is in progress. [ABSTRACT FROM AUTHOR]

Published

2024

34. 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, Brahm, Rafael, Baycroft, Thomas, 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

*LOW mass stars, *STELLAR evolution, *STELLAR mass, *EXTRASOLAR planets, *ECLIPSING binaries

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 M⊙, an unexplained radius inflation is observed relative to typical stellar models. However, for fully convective objects with a mass below 0.35 M⊙, 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 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 Gaia DR3 data, we determine J2114−39 to be a M 1 = 0.998 ± 0.052 M⊙ primary star hosting a fully convective secondary with mass |$M_2~=~0.0993~\pm 0.0033~\, \mathrm{M_{\odot }}$|⁠ , which lies in a poorly populated region of parameter space. With a radius |$R_2 =~0.1250~\pm 0.0016~\, \mathrm{R_{\odot }}$|⁠ , 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. [ABSTRACT FROM AUTHOR]

Published

2024

35. The EBLM project – XIII. The absolute dynamical masses of the circumbinary planet host TOI-1338/BEBOP-1, and applications to the study of exoplanet atmospheres.

Author

Sebastian, D, Triaud, A H M J, Brogi, M, Baycroft, Thomas A, Standing, Matthew R, Maxted, Pierre F L, Martin, David V, Sairam, Lalitha, and Nielsen, Martin B

Subjects

*DWARF stars, *ECLIPSING binaries, *PLANETARY mass, *STELLAR evolution, *EXTRASOLAR planets, *SPECTRAL lines

Abstract

High-contrast eclipsing binaries with low mass M-dwarf secondaries are precise benchmark stars to build empirical mass–radius relationships for fully convective low-mass (⁠|$\rm M_{\star } \lt 0.35\, M_{\odot }$|⁠) dwarf stars. The contributed light of the M-dwarf in such binaries is usually much less than one per cent at optical wavelengths. This enables the detection of circumbinary planets from precise radial velocity measurements. High-resolution cross-correlation techniques are typically used to detect exoplanet atmospheres. One key aspect of these techniques is the post-processing, which includes the removal of telluric and spectral lines of the host star. We introduce the application of such techniques to optical high-resolution spectra of the circumbinary planet-host TOI-1338/BEBOP-1, turning it effectively into a double-lined eclipsing binary. By using simulations, we further explore the impact of post-processing techniques for high-contrast systems. We detect the M-dwarf secondary with a significance of 11σ and measure absolute dynamical masses for both components. Compared to previous model-dependent mass measurements, we obtain a four times better precision. We further find that the post-processing results in negligible systematic impact on the radial velocity precision for TOI-1338/BEBOP-1 with more than |$96.6\,$|  per cent (1σ) of the M-dwarf's signal being conserved. We show that these methods can be used to robustly measure dynamical masses of high-contrast single-lined binaries providing important benchmark stars for stellar evolution particularly near the bottom of the main sequence. We also demonstrate how to retrieve the phase curve of an exoplanet with high-resolution spectroscopy using our data. [ABSTRACT FROM AUTHOR]

Published

2024

36. TESS photometry and CAOS spectroscopy of six eclipsing binaries with Am components.

Author

Catanzaro, G., Frasca, A., Alonso-Santiago, J., and Colombo, C.

Subjects

*INDUCTIVELY coupled plasma atomic emission spectrometry, *ECLIPSING binaries, *CHEMICAL elements, *ALKALINE earth metals, *STELLAR populations, *PHOTOMETRY, *LIGHT curves, *SPECTROMETRY

Abstract

In this paper, we present the results of a comprehensive study of six eclipsing binaries whose components are confirmed or suspected Am stars. By combining long-term, high-resolution Catania Astrophysical Observatory Spectropolarimeter (CAOS) spectroscopy and TESS photometry, we have been able to accurately obtain the orbital parameters of each system as well as the atmospheric parameters of its components. We performed an in-depth chemical analysis and provided chemical abundances of C, O, Na, Mg, Si, Ca, Sc, Ti, Cr, Mn, Fe, Ni, Zn, Sr, Y, Zr, and Ba. From the solution of the light and radial curves, we have determined the masses, radii, and temperatures with a good degree of accuracy. We observe apsidal motion in the eccentric system HD 216429, in which the Rossiter-McLaughlin effect is also noted. We inferred the age of our targets by fitting isochrones on the HR diagram and find that both components in each system are properly described with the same isochrone, which reinforces our results. Furthermore, dynamical and evolutionary masses, independently obtained, show an excellent agreement. According to the out-of-eclipse variability shown in their TESS light curves and their position on the Hertzsprung-Russell diagram, we claim that the stars HD 42954 (as δ Sct type) and HD 151604 (γ Dor) have a pulsating nature. Based on the chemical analysis, we corroborate that four of the systems studied here are formed by Am stars, while in the remaining ones (HD 126031 and HD 216429) only the primary component exhibits a peculiar composition. Additionally, the age distribution found in Am stars supports their suitability as age tracers in stellar populations. [ABSTRACT FROM AUTHOR]

Published

2024

37. Automated eccentricity measurement from raw eclipsing binary light curves with intrinsic variability.

Author

IJspeert, L. W., Tkachenko, A., Johnston, C., Prša, A., Wells, M. A., and Aerts, C.

Subjects

*LIGHT curves, *STELLAR structure, *STELLAR magnitudes, *TIME series analysis, *ECLIPSING binaries, *ASTEROSEISMOLOGY

Abstract

Context. Eclipsing binary systems provide the opportunity to measure the fundamental parameters of their component stars in a stellar-model-independent way. This makes them ideal candidates for testing and calibrating theories of stellar structure and (tidal) evolution. Large photometric (space) surveys provide a wealth of data for both the discovery and the analysis of these systems. Even without spectroscopic follow-up there is often enough information in their photometric time series to warrant analysis, especially if there is an added value present in the form of intrinsic variability, such as pulsations. Aims. Our goal is to implement and validate a framework for the homogeneous analysis of large numbers of eclipsing binary light curves, such as the numerous high-duty-cycle observations from space missions like TESS. The aim of this framework is to be quick and simple to run and to limit the user's time investment when obtaining, amongst other parameters, orbital eccentricities. Methods. We developed a new and fully automated methodology for the analysis of eclipsing binary light curves with or without additional intrinsic variability. Our method includes a fast iterative pre-whitening procedure that results in a list of extracted sinusoids that is broadly applicable for purposes other than eclipses. After eclipses are identified and measured, orbital and stellar parameters are measured under the assumption of spherical stars of uniform brightness. Results. We tested our methodology in two settings: a set of synthetic light curves with known input and the catalogue of Kepler eclipsing binaries. The synthetic tests show that we can reliably recover the frequencies and amplitudes of the sinusoids included in the signal as well as the input binary parameters, albeit to varying degrees of accuracy. Recovery of the tangential component of eccentricity is the most accurate and precise. Kepler results confirm a robust determination of orbital periods, with 80.5% of periods matching the catalogued ones. We present the eccentricities for this analysis and show that they broadly follow the theoretically expected pattern as a function of the orbital period. Conclusions. Our analysis methodology is shown to be capable of analysing large numbers of eclipsing binary light curves with no user intervention, and in doing so provide a basis for a further in-depth analysis of systems of particular interest as well as for statistical analysis at the sample level. Furthermore, the computational performance of the frequency analysis, extracting hundreds of sinusoids from Kepler light curves in a few hours, demonstrates its value as a tool for a field like asteroseismology. [ABSTRACT FROM AUTHOR]

Published

2024

38. Eclipse-timing study of new hierarchical triple star candidates in the northern continuous viewing zone of TESS.

Author

Mitnyan, T., Borkovits, T., Czavalinga, D. R., Rappaport, S. A., Pál, A., Powell, B. P., and Hajdu, T.

Subjects

*TRIPLE stars, *ECLIPSING binaries, *LIGHT curves, *SPACE telescopes, *PHOTOMETRY

Abstract

Aims. We compiled a list of more than 3500 eclipsing binaries located in and near the northern continuous viewing zone (NCVZ) of the TESS space telescope that have sufficient TESS photometry to search for additional hidden components in these systems. In addition to discovering their hierarchical nature, we also determined their orbital parameters and analyzed their distributions. Methods. We obtained the TESS light curves of all targets in an automated way by applying convolution-aided differential photometry on the TESS full-frame images from all available sectors up to sector 60. Using a new self-developed Python GUI, we visually confirmed all of these light curves, determined the eclipsing periods of the objects, and calculated their eclipse-timing variations (ETVs). The ETV curves were used in order to search for nonlinear variations that could be attributed to a light travel-time effect (LTTE) or dynamical perturbations caused by additional components in these systems. We preselected 351 such candidates and modeled their ETVs with the analytic formulae of pure LTTE or with a combination of LTTE and dynamical perturbations. Results. We were able to fit a model solution for the ETVs of 135 hierarchical triple candidates, 10 systems of which were known from the literature, and the remaining 125 systems are new discoveries. These systems include some more noteworthy ones, such as five tight triples that are very close to their dynamical stability limit with a period ratio lower than 20, and three newly discovered triply eclipsing triples. We point out that dynamical perturbations occur in GZ Dra, which we found to be a triple, and that the system is one of the most strongly inclined systems known in the literature, with im = 58° ±7°. We also compared the distributions of some orbital parameters from our solutions with those from a previous Kepler sample. Finally, we verified the correlations between the available parameters for systems that have Gaia non-single star orbital solutions with those from our ETV solutions. [ABSTRACT FROM AUTHOR]

Published

2024

39. The double low-mass white dwarf eclipsing binary system J2102–4145 and its possible evolution.

Author

Antunes Amaral, L., Munday, J., Vučković, M., Pelisoli, I., Németh, P., Zorotovic, M., Marsh, T. R., Littlefair, S. P., Dhillon, V. S., and Brown, A. J.

Subjects

*WHITE dwarf stars, *ECLIPSING binaries, *STELLAR oscillations, *BINARY stars, *LIGHT curves, *LOW mass stars, *PHOTOMETRY

Abstract

In recent years, about 150 low-mass white dwarfs (WDs), typically with masses below 0.4 M⊙, have been discovered. The majority of these low-mass WDs are observed in binary systems as they cannot be formed through single-star evolution within Hubble time. In this work, we present a comprehensive analysis of the double low-mass WD eclipsing binary system J2102−4145. Our investigation encompasses an extensive observational campaign, resulting in the acquisition of approximately 28 h of high-speed photometric data across multiple nights using NTT/ULTRACAM, SOAR/Goodman, and SMARTS-1m telescopes. These observations have provided critical insights into the orbital characteristics of this system, including parameters such as inclination and orbital period. To disentangle the binary components of J2102−4145, we employed the XTGRID spectral fitting method with GMOS/Gemini-South and X-shooter data. Additionally, we used the PHOEBE package for light curve analysis on NTT/ULTRACAM high-speed time-series photometry data to constrain the binary star properties. Our analysis unveils remarkable similarities between the two components of this binary system. For the primary star, we determine Teff,1 = 13 688−72+65 K, log g1 = 7.36 ± 0.01, R1 = 0.0211 ± 0.0002 R⊙, and M1 = 0.375 ± 0.003 M⊙, while, the secondary star is characterised by Teff,2 = 12952−66+53 K, log g2 = 7.32 ± 0.01, R2 = 0.0203−0.0003+0.0002 R⊙, and M2 = 0.314 ± 0.003 M⊙. Furthermore, we found a notable discrepancy between Teff and R of the less massive WD, compared to evolutionary sequences for WDs from the literature, which has significant implications for our understanding of WD evolution. We discuss a potential formation scenario for this system which might explain this discrepancy and explore its future evolution. We predict that this system will merge in ∼800 Myr, evolving into a helium-rich hot subdwarf star and later into a hybrid He/CO WD. [ABSTRACT FROM AUTHOR]

Published

2024

40. CSS_J154915.7+375506: a low-mass-ratio marginal contact binary system with a hierarchical third body.

Author

Wu, Jin-Feng, Zhu, Li-Ying, Matekov, Azizbek, Li, Lin-jia, Ehgamberdiev, Shuhrat, Asfandiyarov, Ildar, Wang, Jiang-Jiao, Zhang, Jia, and Meng, Fang-Bin

Subjects

*ASTRONOMICAL observatories, *STELLAR evolution, *TELESCOPES, *ECLIPSING binaries, *OSCILLATIONS

Abstract

We presented the multifilter light curves of CSS_J154915.7+375506 inaugurally, which were observed by the 1.5-m Astronomicheskiy Zerkalniy Telescope 22 (AZT-22) telescope at Maidanak Astronomical Observatory. A low-resolution spectrum obtained by Large-sky-Area Multi-Object fiber Spectroscopic Telescope reveals that it is an A-type (spectral A type) close binary. By analysing the BVRI total-eclipse light curves, we are able to derive a reliable photometric solution for this system, which indicates that CSS_J154915.7+375506 is an extremely low mass ratio (q  = 0.138) marginal contact binary system. The location in the Hertzsprung–Russell (HR) diagram shows that its secondary component with a much smaller mass is the more evolved one, indicating that the mass ratio reversal occurred. The present secondary component had transferred a significant amount of mass to the present primary one. By the combination of a total of 20 times of minimum, we investigated its O–C (observed minus calculated) curve. A periodic oscillation and a possible period decrease have been detected. As the period decreases, the system will evolve towards the contact phase. This makes CSS_J154915.7+375506 a valuable case to study the formation scenario of contact binaries through mass reversal. The periodic oscillation suggested a third body with a minimal mass of |$0.91\, {\rm M}_{\odot }$|⁠ , which is larger than that of the less massive component in the central binary. This implies that the secondary body was not replaced by the third body during early stellar interactions, indicating that it is a fossil system and retains its original dynamical information. [ABSTRACT FROM AUTHOR]

Published

2024

41. Search and characterization of third-body candidates around short-period binaries using Kepler and TESS data.

Author

Inácio, Jefferson R P, Macêdo, Isaac M, Ferreira, Éder V X, Lisboa, Ronai, Mendes, Tarciro N C, Pereira, Marildo G, da Silva, José R P, and Almeida, Leonardo A

Subjects

*QUADRUPOLE moments, *GRAVITATIONAL waves, *ANGULAR momentum (Mechanics), *PHENOMENOLOGICAL theory (Physics), *STELLAR dynamics, *MOMENTUM transfer, *BINARY number system, *MAGNETIC flux leakage

Abstract

The study of the orbital period variation of short-period binary systems has been important to understand several physical phenomena, such as the emission of gravitational waves, angular momentum loss via magnetic braking, matter transfer between the components, apsidal motion, quadrupole moment variation, and presence of circumbinary bodies. With the advent of large space missions, e.g. Kepler and Transiting Exoplanet Survey Satellite (TESS), an enormous amount of high-precision photometric data with temporal coverage from years to decades has become available. Thus, in this work, we propose to study the orbital period variation of a sample of 253 binary that was observed by both Kepler and TESS and therefore with a temporal coverage of more than 10 yr. The main goal of this paper is the search and characterization of third bodies. Based on the periodicity analysis of the observed minus calculated (O − C) diagram of the sample, 75 of them showed periodic variation and therefore were classified as binary systems with third-body candidates, while the remaining 178 did not show periodic variations. This result is a two-fold increase in tertiary candidates around binary systems compared to the study carried out with only Kepler data. Although our estimated rate of third-body candidates (∼30 per cent) is higher than that obtained only with Kepler data (∼20 per cent), it should be taken as a lower limit. [ABSTRACT FROM AUTHOR]

Published

2024

42. A possible third body in the X-ray system GRS 1747−312 and models with higher order multiplicity.

Author

Painter, Caleb, Di Stefano, Rosanne, Kashyap, Vinay L, Soria, Roberto, Lopez-Miralles, Jose, Urquhart, Ryan, Steiner, James F, Motta, Sara, Ragozzine, Darin, and Mori, Hideyuki

Subjects

*GLOBULAR clusters, *X-ray binaries, *BROWN dwarf stars, *X-rays, *MULTIPLICITY (Mathematics), *ECLIPSES

Abstract

GRS 1747−312 is a bright Low-Mass X-ray Binary in the globular cluster Terzan 6, located at a distance of 9.5 kpc from the Earth. It exhibits regular outbursts approximately every 4.5 months, during which periodic eclipses are known to occur. These eclipses have only been observed in the outburst phase, and are not clearly seen when the source is quiescent. Recent Chandra observations of the source were performed in 2019 June and 2021 April, June, and August. Two of these observations captured the source during its outburst, and showed clear flux decreases at the expected time of eclipse. The other two observations occurred when the source was quiescent. We present the discovery of a dip that occurred during the quiescent state. The dip is of longer duration and its time of occurrence does not fit the ephemeris of the shorter eclipses. We study the physical characteristics of the dip and determine that it has all the properties of an eclipse by an object with a well defined surface. We find that there are several possibilities for the nature of the object causing the 5.3 ks eclipse. First, GRS 1747−312 may be an X-ray triple, with an LMXB orbited by an outer third object, which could be an M-dwarf, brown dwarf, or planet. Secondly, there could be two LMXBs in close proximity to each other, potentially bound together. Whatever the true nature of the eclipser, its presence suggests that the GRS 1747−312 system is exotic. [ABSTRACT FROM AUTHOR]

Published

2024

43. Minute-cadence observations of the LAMOST Fields with the TMTS – V. Machine learning classification of TMTS catalogues of periodic variable stars.

Author

Guo, Fangzhou, Lin, Jie, Wang, Xiaofeng, Chen, Xiaodian, Li, Tanda, Chen, Liyang, Xia, Qiqi, Mo, Jun, Xi, Gaobo, Zhang, Jicheng, Liu, Qichun, Jiang, Xiaojun, Yan, Shengyu, Peng, Haowei, Liu, Jialian, Li, Wenxiong, Lin, Weili, Xiang, Danfeng, Ma, Xiaoran, and Cai, Yongzhi

Subjects

*VARIABLE stars, *STELLAR structure, *MACHINE learning, *ECLIPSING binaries, *STELLAR oscillations, *LIGHT curves

Abstract

Periodic variables are always of great scientific interest in astrophysics. Thanks to the rapid advancement of modern large-scale time-domain surveys, the number of reported variable stars has experienced substantial growth for several decades, which significantly deepened our comprehension of stellar structure and binary evolution. The Tsinghua University-Ma Huateng Telescopes for Survey (TMTS) has started to monitor the LAMOST sky areas since 2020, with a cadence of 1 min. During the period from 2020 to 2022, this survey has resulted in densely sampled light curves for ~30 000 variables of the maximum powers in the Lomb–Scargle periodogram above the 5σ threshold. In this paper, we classified 11 638 variable stars into six main types using xgboost and Random Forest classifiers with accuracies of 98.83 per cent and 98.73 per cent, respectively. Among them, 5301 (45.55 per cent) variables are newly discovered, primarily consisting of δ Scuti stars, demonstrating the capability of TMTS in searching for short-period variables. We cross-matched the catalogue with Gaia 's second Data Release and LAMOST's seventh Data Release to obtain important physical parameters of the variables. We identified 5504 δ Scuti stars (including 4876 typical δ Scuti stars and 628 high-amplitude δ Scuti stars), 5899 eclipsing binaries (including EA-, EB-, and EW-type), and 226 candidates of RS Canum Venaticorum. Leveraging the metal abundance data provided by LAMOST and the Galactic latitude, we discovered eight candidates of SX Phe stars within the class of 'δ Scuti stars'. Moreover, with the help of Gaia colour–magnitude diagram, we identified nine ZZ Ceti stars. [ABSTRACT FROM AUTHOR]

Published

2024

44. Discovery of radio eclipses from 4FGL J1646.5−4406: a new candidate redback pulsar binary.

Author

Zic, Andrew, Wang, Ziteng, Lenc, Emil, Kaplan, David L, Murphy, Tara, Ridolfi, A, Sengar, Rahul, Hurley-Walker, Natasha, Dobie, Dougal, Leung, James K, Pritchard, Joshua, and Wang, Yuanming

Subjects

*INTERSTELLAR medium, *LOW mass stars, *VARIABLE stars, *BINARY pulsars, *RADIO telescopes, *ECLIPSING binaries, *PULSARS

Abstract

Large widefield surveys make possible the serendipitous discovery of rare subclasses of pulsars. One such class are 'spider'-type pulsar binaries, comprised of a pulsar in a compact orbit with a low-mass (sub)stellar companion. In a search for circularly polarized radio sources in Australian Square Kilometre Array Pathfinder (ASKAP) Pilot Survey observations, we discovered highly variable and circularly polarized emission from a radio source within the error region of the γ-ray source 4FGL J1646.5−4406. The variability is consistent with the eclipse of a compact, steep-spectrum source behind ablated material from a companion in an ∼5.3 h binary orbit. Based on the eclipse properties and spatial coincidence with 4FGL J1646.5−4406, we argue that the source is likely a recycled pulsar in a 'redback' binary system. Using properties of the eclipses from ASKAP and Murchison Widefield Array observations, we provide broad constraints on the properties of the eclipse medium. We identified a potential optical/infrared counterpart in archival data consistent with a variable low-mass star. Using the Parkes radio telescope 'Murriyang' and the Meer Karoo Array Telescope (MeerKAT) , we searched extensively for radio pulsations but yielded no viable detections of pulsed emission. We suggest that the non-detection of pulses is due to scattering in the intra-binary material, but scattering from the interstellar medium can also plausibly explain the pulse non-detections if the interstellar dispersion measure exceeds ∼600 pc cm−3. Orbital constraints derived from optical observations of the counterpart would be highly valuable for future γ-ray pulsation searches, which may confirm the source nature as a pulsar. [ABSTRACT FROM AUTHOR]

Published

2024

45. The EBLM Project– XI. Mass, radius, and effective temperature measurements for 23 M-dwarf companions to solar-type stars observed with CHEOPS.

Author

Swayne, M I, Maxted, P F L, Triaud, A H M J, Sousa, S G, Deline, A, Ehrenreich, D, Hoyer, S, Olofsson, G, Boisse, I, Duck, A, Gill, S, Martin, D, McCormac, J, Persson, C M, Santerne, A, Sebastian, D, Standing, M R, Acuña, L, Alibert, Y, and Alonso, R

Subjects

*STELLAR structure, *TEMPERATURE measurements, *LOW mass stars, *ECLIPSING binaries, *LIGHT curves, *DWARF stars, *INFLATIONARY universe

Abstract

Observations of low-mass stars have frequently shown a disagreement between observed stellar radii and radii predicted by theoretical stellar structure models. This 'radius inflation' problem could have an impact on both stellar and exoplanetary science. We present the final results of our observation programme with the CHaracterising ExOPlanet Satellite (CHEOPS) to obtain high-precision light curves of eclipsing binaries with low-mass stellar companions (EBLMs). Combined with the spectroscopic orbits of the solar-type companions, we can derive the masses, radii, and effective temperatures of 23 M-dwarf stars. We use the pycheops data analysis software to analyse their primary and secondary occultations. For all but one target, we also perform analyses with Transiting Exoplanet Survey Satellite (TESS) light curves for comparison. We have assessed the impact of starspot-induced variation on our derived parameters and account for this in our radius and effective temperature uncertainties using simulated light curves. We observe trends in inflation with both metallicity and orbital separation. We also observe a strong trend in the difference between theoretical and observational effective temperatures with metallicity. There is no such trend with orbital separation. These results are not consistent with the idea that the observed inflation in stellar radius combines with lower effective temperature to preserve the luminosity predicted by low-mass stellar models. Our EBLM systems provide high-quality and homogeneous measurements that can be used in further studies of radius inflation. [ABSTRACT FROM AUTHOR]

Published

2024

46. The benchmark M dwarf eclipsing binary CM Draconis with TESS: spots, flares, and ultra-precise parameters.

Author

Martin, David V, Sethi, Ritika, Armitage, Tayt, Gilbert, Gregory J, Rodríguez Martínez, Romy, and Gilbert, Emily A

Subjects

*PLANETARY orbits, *ECLIPSING binaries, *ORBITS (Astronomy), *ECLIPSES

Abstract

A gold standard for the study of M dwarfs is the eclipsing binary CM Draconis. It is rare because it is bright (J mag = 8.5) and contains twin fully convective stars on an almost perfectly edge-on orbit. Both masses and radii were previously measured to better than 1 per cent precision, amongst the best known. We use 15 sectors of data from the Transiting Exoplanet Survey Satellite (TESS) to show that CM Draconis is the gift that keeps on giving. Our paper has three main components. First, we present updated parameters, with radii and masses constrained to previously unheard-of precisions of ≈0.06 and ≈0.12 per cent, respectively. Secondly, we discover strong and variable spot modulation, suggestive of spot clustering and an activity cycle of the order of ≈4 yr. Thirdly, we discover 163 flares. We find a relationship between the spot modulation and flare rate, with flares more likely to occur when the stars appear brighter. This may be due to a positive correlation between flares and the occurrence of bright spots (plages). The flare rate is surprisingly not reduced during eclipse, but one flare may show evidence of being occulted. We suggest that the flares may be preferentially polar, which has positive implications for the habitability of planets orbiting M dwarfs. [ABSTRACT FROM AUTHOR]

Published

2024

47. A joint SRG/eROSITA + ZTF search: Discovery of a 97-min period eclipsing cataclysmic variable with evidence of a brown dwarf secondary.

Author

Galiullin, Ilkham, Rodriguez, Antonio C, Kulkarni, Shrinivas R, Sunyaev, Rashid, Gilfanov, Marat, Bikmaev, Ilfan, Yungelson, Lev, van Roestel, Jan, Gänsicke, Boris T, Khamitov, Irek, Szkody, Paula, El-Badry, Kareem, Suslikov, Mikhail, Prince, Thomas A, Buntov, Mikhail, Caiazzo, Ilaria, Gorbachev, Mark, Graham, Matthew J, Gumerov, Rustam, and Irtuganov, Eldar

Subjects

*CATACLYSMIC variable stars, *BROWN dwarf stars, *SPECTRAL energy distribution, *OPTICAL spectra, *X-ray spectroscopy, *ASTRONOMICAL photometry, *EVOLUTIONARY models, *PHOTOMETRY

Abstract

Cataclysmic variables (CVs) that have evolved past the period minimum during their lifetimes are predicted to be systems with a brown dwarf donor. While population synthesis models predict that around 40–70 per cent of the Galactic CVs are post-period minimum systems referred to as 'period bouncers', only a few dozen confirmed systems are known. We report the study and characterization of a new eclipsing CV, SRGeJ041130.3+685350 (SRGeJ0411), discovered from a joint SRG/eROSITA and ZTF programme. The optical spectrum of SRGeJ0411 shows prominent hydrogen and helium emission lines, typical for CVs. We obtained optical high-speed photometry to confirm the eclipse of SRGeJ0411 and determine the orbital period to be P orb ≈ 97.530 min. The spectral energy distribution suggests that the donor has an effective temperature of ≲ 1800 K. We constrain the donor mass with the period–density relationship for Roche lobe-filling stars and find that M donor ≲ 0.04  M ⊙. The binary parameters are consistent with evolutionary models for post-period minimum CVs, suggesting that SRGeJ0411 is a new period bouncer. The optical emission lines of SRGeJ0411 are single-peaked despite the system being eclipsing, which is typically only seen due to stream-fed accretion in polars. X-ray spectroscopy hints that the white dwarf in SRGeJ0411 could be magnetic, but verifying the magnetic nature of SRGeJ0411 requires further investigation. The lack of optical outbursts has made SRGeJ0411 elusive in previous surveys, and joint X-ray and optical surveys highlight the potential for discovering similar systems in the near future. [ABSTRACT FROM AUTHOR]

Published

2024

48. Light curves from symmetric, polytropic contact binaries.

Author

Benvenuto, O G, Blain, A, and Ferrero, G A

Subjects

*LIGHT curves, *THEORY of distributions (Functional analysis), *THREE-body problem, *ECLIPSING binaries, *LAGRANGIAN points

Abstract

We study the structure of contact binaries assuming a polytropic relation between pressure and density, restricting ourselves to the case of equal-mass components, i.e. symmetric contact binaries. In this case, matter is at rest in the corotating reference frame making this problem far simpler than the general case of non-symmetric contact binaries. We compute these structures assuming values of the polytropic index of n  = 0.0, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, and 3.5 employing a self-consistent technique due to Hachisu. As a part of the results, we find the shape of their surfaces. While for the case of n  = 3.5, such surfaces are very close to those corresponding to equipotentials of the restricted Lagrangian three-body problem, for lower n values the departure is remarkable. We propose a generalized function to fit these surfaces, which allows us to perform an accurate integration of the light curve due to the object. Then, for values of n > 0.0 we computed a family of light curves considering different inclinations and values for the width of the neck connecting the components (or equivalently, the fillout factor) of the pair. We compare our calculations with the solution found for the symmetric contact binary V803 Aquilae by employing the popular phoebe code, that assumes the above-mentioned Lagrangian equipotential surfaces. We conclude that considering polytropic structures leads to parameters that may be appreciably different from those deduced by assuming that their surfaces correspond to equipotentials of the restricted three-body problem. [ABSTRACT FROM AUTHOR]

Published

2024

49. Absolute properties of the oscillating eclipsing Algol XZ Ursae Majoris.

Author

Lee, Jae Woo, Hong, Kyeongsoo, Kim, Hye-Young, Wolf, Marek, Park, Jang-Ho, and Rittipruk, Pakakaew

Subjects

*STELLAR oscillations, *BINARY stars, *LIGHT curves, *MASS measurement, *OSCILLATIONS

Abstract

It is known from archival TESS data that the semi-detached Algol system XZ Ursae Majoris (UMa) is one of the candidate binary stars exhibiting short-period oscillations. We secured new high-resolution spectroscopic observations for the program target to better understand its binary and pulsation properties. From the echelle spectra, the radial velocities (RVs) of the eclipsing pair were derived, and the atmosphere parameters of the primary component were measured to be v Asin  i  = 80 ± 7 km s−1, T eff, A = 7940 ± 120 K, and [M/H] = −0.15 ± 0.20. The combined solution of our double-lined RVs and the TESS data provides robust physical parameters for XZ UMa with mass and radius measurement precision of better than 2%. The outside-eclipse residuals from a mean light curve in the 0.002 phase bin were used for multifrequency analyses, and we extracted 32 significant frequencies (22 in <5.0 d−1 and 10 in 39–52 d−1). The low frequencies may be mostly aliasing sidelobes, while six of the high frequencies may be pulsation signals arising from the detached primary located inside the δ Sct domain. Their periods, pulsation constants, and pulsational–orbital-period ratios indicate that the mass-accreting primary star is a δ Sct pulsator and, hence, XZ UMa is an oscillating eclipsing Algol. [ABSTRACT FROM AUTHOR]

Published

2024

50. The first analysis of three long-period low mass-ratio contact binaries.

Author

Liu, Fei, Li, Kai, Gao, Xiang, Guo, Ya-Ni, Li, Ling-Zhi, Liu, Xin-Yi, Li, Ke-Xin, Gao, Xin-Yi, Gao, Xing, Sun, Guo-You, Wang, Xi, and Yin, Shi-Peng

Subjects

*LIGHT curves, *MASS transfer, *STELLAR evolution, *CURVE fitting, *ECLIPSING binaries

Abstract

The photometric and spectroscopic studies of three contact binaries, ASASSN-V J052036.28+144711.0, ASASSN-V J064846.22+241709.9, and ASASSN-V J073441.02+555833.0 were performed for the first time. The periods of all the three targets are longer than 0.5 d, and we discovered that their mass ratios are all smaller than 0.25. So, they are long-period low mass-ratio contact binaries. ASASSN-V J052036.28+144711.0 and ASASSN-V J064846.22+241709.9 are medium contact binaries. ASASSN-V J073441.02+555833.0 is a deep contact binary, which is also the only one existing O'Connell effect. We attached a dark spot on its secondary component for a better fit of light curves featuring asymmetry. From orbital period analysis, two of the three targets are believed to demonstrate a secular period increase, while one shows no long-term variation. We employed the spectral subtraction approach to investigate the LAMOST spectra, while all of the three binaries show no H α emission line, implying no chromospheric activity. Their initial masses, current average densities, and mass transfer rates between the two components were calculated. We obtained that the three targets are stable for the moment. [ABSTRACT FROM AUTHOR]

Published

2024