Your search keyword '"Stars: binaries"' showing total 251 results

1. The evolution of binary-stripped stars: consequences for supernovae and black hole formation.

Author

Laplace, Eva, Schneider, Fabian, Podsiadlowski, Philipp, de Mink, Selma, Justham, Stephen, Renzo, Mathieu, Götberg, Ylva, Farmer, Rob, and Vartanyan, David

Subjects

*STELLAR structure, *STELLAR evolution, *BLACK holes, *STARS, *NEUTRON stars

Abstract

Gravitational-wave (GW) observations are revealing the population of compact objects from a new angle. Yet their stellar progenitors remain uncertain because few observational clues on their progenitors exist. Theoretical models typically assume that the progenitor evolution can be approximated with single-star models. We explore how binary evolution affects the pre-supernova (SN) structure of stars, and the resulting distribution of compact object remnants. We focus on the differences in the core properties of single stars and of donor stars that transfer their outer layers in binary systems and become binary-stripped. We show that the final structures of binary-stripped stars that lose their outer layers before the end of core helium burning are systematically different compared to single stars. As a result, we find that binary-stripped stars tend to explode more easily than single stars and preferentially produce neutron stars and fewer black holes, with consequences for GW progenitors. [ABSTRACT FROM AUTHOR]

Published

2024

2. Hunting for red supergiant binaries: UVIT photometry of the SMC.

Author

Patrick, Lee R., Thilker, David, Lennon, Danny, Bianchi, Luciana, Schootemeijer, Abel, Dorda, Ricardo, Langer, Norbert, and Negueruela, Ignacio

Subjects

*COOL stars (Astronomy), *MAGELLANIC clouds, *BINARY stars, *PHOTOMETRY, *GALAXIES

Abstract

. We present UVIT/Astrosat UV photometry of the RSG population of the Small Cloud galaxy (SMC). As RSGs are extremely faint in the far-UV, these observations directly probe potential companion stars. From a sample of 861 SMC RSGs, we find 88 have detections at far-UV wavelengths: a clear signature of binarity. Stellar parameters are determined for both components, which allows us to study - for the first time - the mass-ratio (q) distribution of RSG binary systems. We find a flat mass-ratio distribution best describes the observations up to MRSG ∼15M⊙. We account for our main observing bias (i.e. the limiting magnitude of the UVIT survey) to determine the intrinsic RSG binary fraction of 18.8 ± 1.5 %, for mass-ratios in the range 0.3.< q <1.0 and orbital periods approximately in the range 3

Published

2024

3. The impact of binary interaction on the main-sequence morphology of young star clusters.

Author

Wang, Chen, Langer, Norbert, Schootemeijer, Abel, Milone, Antonino, Hastings, Ben, Xu, Xiao-Tian, Bodensteiner, Julia, Sana, Hugues, Castro, Norberto, Lennon, D. J., Marchant, Pablo, de Koter, A., and de Mink, Selma E.

Subjects

*MAIN sequence (Astronomy), *STAR clusters, *SUPERGIANT stars, *STELLAR mass, *HR diagrams

Abstract

Since massive stars form preferentially as members of close binary systems, we use dense grids of detailed binary evolution models to explore how binary evolution shapes the main-sequence morphology of young star clusters. We propose that binary mergers might be the origin of the blue main sequence stars in young star clusters. Our results imply that stars may either form by accretion, or through a binary merger, and that both paths lead to distinctly different spins, magnetic fields, and stellar mass distributions. [ABSTRACT FROM AUTHOR]

Published

2024

4. HR 6819 – a post-interaction binary system originally thought to be a triple system containing a black hole.

Author

Frost, Abigail J., Bodensteiner, Julia, Rivinius, Thomas, Baade, Dietrich, Merand, Antoine, Selman, Fernando, Abdul-Masih, Michael, Banyard, Gareth, Bordier, Emma, Dsilva, Karan, Hawcroft, Calum, Mahy, Laurent, Reggiani, Maddalena, Shenar, Tomer, Cabezas, Mauricio, Hadrava, Petr, Heida, Marianne, Klement, Robert, and Sana, Hugues

Subjects

*BLACK holes, *BINARY stars, *CHERNOZEM soils, *SYSTEMS theory, *INTEGRALS

Abstract

In 2020, HR 6819 was reported to be a triple system containing the closest black hole to Earth. However, these results were contested, with an alternative explanation of a post-interaction binary suggested. Using new integral field spectroscopic and interferometric data, we have been able to determine the true nature of this exotic source. [ABSTRACT FROM AUTHOR]

Published

2024

5. Performance and Scaling of PION for Modelling Colliding-Wind Binary Systems.

Author

Mackey, Jonathan, Jones, Thomas A.K., Brose, Robert, Grassitelli, Luca, Reville, Brian, and Mathew, Arun

Subjects

PARTICLE acceleration, BINARY stars, COMPUTATIONAL fluid dynamics, CONSTRAINTS (Physics), INTERPLANETARY dust

Abstract

Colliding-wind binaries are star systems with strong wind-wind interaction producing X-ray-, radio- and sometimes gamma-ray-emitting plasma. Computer modelling of these systems including magnetic fields and all relevant radiative processes is still in its infancy, but is important for constraining shock physics (including particle acceleration) and interstellar dust formation processes. Here we summarise some recent scientific results on these systems and present results of EuroHPC benchmarking tests of the astropysical fluid-dynamics code PION on the Czech supercomputer Karolina. Excellent strong and weak scaling are demonstrated, showing that PION can be used efficiently on Tier-0 systems for 3D simulations of colliding winds in binary systems. Further improvements were obtained in hybrid OpenMP/MPI parallelisation on the basis of the benchmarking test results. [ABSTRACT FROM AUTHOR]

Published

2024

6. Chandra/HETG Doppler velocity measurements in stellar coronal sources.

Author

Bozzo, E, Huenemoerder, D P, Falanga, M, Paltani, S, Costantini, E, de Plaa, J, and Gu, L

Subjects

*VELOCITY measurements, *PLASMA astrophysics, *STELLAR rotation, *STARS, *NUMBER systems, *STELLAR orbits, *X-ray binaries

Abstract

Stellar coronal sources have been observed in the past not only for their astrophysical interest in the field of binary system evolution and interaction but also for their invaluable roles as benchmarks for plasma spectral models and as calibration sources for high resolution spectroscopic X-ray instruments. These include the gratings on-board Chandra and XMM-Newton , as well as the new generation of high resolution capable-detectors recently flown on-board XRISM and planned for the future also onboard the Athena and the LEM missions. In our previous paper exploiting Chandra /HETG observations of the prototypical coronal source Capella, it has been shown that the centroid energies of the many X-ray emission lines detected in the spectrum of this object change as a function of time due to the Doppler modulation within the binary. This is an effect that needs to be corrected while performing calibrations of high-resolution X-ray instruments. In this paper, we extend our previous work on Capella to other known stellar coronal sources that have been observed with the Chandra /HETG (11 objects in total). We measure in several objects clear trends in the velocity shifts along the orbit of the primary star, meaning that in these sources one of the two star components is largely dominating the high energy emission. In a number of systems the trend in the velocity shift is not obvious. This can be ascribed to the fact that both stellar components contribute significantly to the X-ray emission. [ABSTRACT FROM AUTHOR]

Published

2024

7. A benchmark white dwarf–ultracool dwarf wide field binary.

Author

Ferreira, Thiago, Saito, Roberto K, Minniti, Dante, Mejías, Andrea, Caceres, Claudio, Alonso-García, Javier, Beamín, Juan Carlos, Smith, Leigh C, Gomez, Matías, Lucas, Philip W, and Ivanov, Valentin D

Subjects

*EVOLUTIONARY models, *BROWN dwarf stars

Abstract

We present the discovery and multiwavelength characterization of VVV J1438-6158 AB, a new field wide-binary system consisting of a |$4.6^{+5.5}_{-2.4}~{\rm Gyr}$| and |$T_{\rm eff} = 9500\pm 125~\mathrm{ K}$| DA white dwarf (WD) and a |$T_{\rm eff} = 2400\pm 50~\mathrm{ K}$| M8 ultracool dwarf (UCD). The projected separation of the system is |$a = 1236.73~{\rm au}$| (⁠|$\sim 13.8\, \mathrm{ arcsec}$|⁠), and although along the line of sight towards the Scorpius–Centaurus stellar association, VVV J1438-6158 AB is likely to be a field star, from a kinematic 6D probabilistic analysis. We estimated the physical and dynamical parameters of both components via interpolations with theoretical models and evolutionary tracks, which allowed us to retrieve a mass of |$0.62\pm 0.18~\mathrm{ M}_\odot$| for the WD, and a mass of |$98.5\pm 6.2~\mathrm{ M}_{\rm Jup}$| (⁠|$\sim 0.094\pm 0.006~\mathrm{ M}_\odot$|⁠) for the UCD. The radii of the two components were also estimated at |$0.01309\pm 0.0003~\mathrm{ R}_{\odot }$| and |$1.22\pm 0.05~\mathrm{ R}_{\rm Jup}$|⁠ , respectively. VVV J1438-6158 AB stands out as a benchmark system for comprehending the evolution of WDs and low-mass companions given its status as one of the most widely separated WD+UCD systems known to date, which likely indicates that both components may have evolved independently of each other, and also being characterized by a large-mass ratio (⁠|$q = 0.15\pm 0.04$|⁠), which likely indicates a formation pathway similar to that of stellar binary systems. [ABSTRACT FROM AUTHOR]

Published

2024

8. The multiplicity of Galactic Wolf-Rayet stars.

Author

Dsilva, Karan, Shenar, Tomer, Sana, Hugues, and Marchant, Pablo

Subjects

*WOLF-Rayet stars, *STELLAR evolution, *BINARY stars, *CROSS correlation, *MULTIPLICITY (Mathematics)

Abstract

We present the results of a magnitude-limited spectroscopic survey of Galactic Wolf-Rayet stars with the HERMES spectrograph mounted on the Mercator telescope. Using cross-correlation to measure radial velocities, we measured the observed binary fractions of the Galactic carbon- (WC) and nitrogen-rich (WN) Wolf-Rayet stars to be and. We used Monte-Carlo simulations with a Bayesian framework to derive the intrinsic multiplicity properties and found and. We find that the majority of WN binaries reside in short-period systems, similar to O stars. However, the orbital period distribution of the Galactic WC population peaks at 5000 d, a discrepancy that challenges our current understanding of binary evolution in Wolf-Rayet stars. [ABSTRACT FROM AUTHOR]

Published

2024

9. Near and far: a hunt for binary-interaction products.

Author

Bodensteiner, J., Sana, H., Mahy, L., Shenar, T., Banyard, G., and Wang, C.

Subjects

*MAGELLANIC clouds, *STAR clusters, *BINARY stars, *GALAXIES, *PHYSICS

Abstract

Direct observations of the products of binary interactions are sparse, yet they provide important insights on the outcome of the interaction and the physics at play. Young and intermediate-age star clusters are the ideal tool to search for, and characterize such interaction products and allow for a detailed comparison to theoretical predictions. We here report on integral field spectroscopy obtained with MUSE for several such clusters in the Magellanic Clouds. [ABSTRACT FROM AUTHOR]

Published

2024

10. Spins of stripped B stars support magnetic internal angular momentum transport.

Author

Schürmann, Christoph, Langer, Norbert, Xu, Xiao-Tian, and Wang, Chen

Subjects

*STELLAR magnetic fields, *ANGULAR momentum (Mechanics), *MAGNETIC torque, *BINARY stars, *B stars

Abstract

The galactic binary star LB-1 contains a recently stripped B-type star. Comparing its properties to detailed binary star models shows that tidal braking and magnetic torques lead to low surface rotational velocities in the stripped donors after Roche-lobe overffiow. Models without magnetic torques cannot reproduce the observed low surface rotation. [ABSTRACT FROM AUTHOR]

Published

2024

11. A detailed analysis of X-ray emission-line velocities of Capella from over 20 yr of Chandra/HETG spectroscopy.

Author

Bozzo, E, Huenemoerder, D P, Produit, N, Falanga, M, Paltani, S, and Costantini, E

Subjects

*DOPPLER effect, *X-rays, *SPECTRAL imaging, *X-ray imaging, *X-ray spectroscopy

Abstract

Capella is the brightest chromospherically active binary in the sky, hosting a cooler G8III giant (Aa) and a hotter G1III companion (Ab). The source has been extensively observed in the X-rays in the past decades not only for its astrophysical interest in the field of corona sources, but also for in-flight calibrations of space-based X-ray instruments. In 2006, it was demonstrated using Chandra/High Energy Transmission Grating (HETG) observations that Aa is the main contributor to Capella's X-ray emission, as the centroid energies of the emission lines are Doppler shifted along the orbit of the G8III giant (an aspect that has to be taken into consideration for calibration activities of X-ray instruments). In this paper, we extend the previous analysis performed in 2006 by re-analysing in a homogeneous way all Chandra/HETG observations performed in the direction of Capella. By doubling the amount of data available, we strengthened the conclusion that Capella Aa is the dominant emitter in soft X-rays. We did not find any evidence of a statistically significant contribution to this emission by the Ab giant. Our findings are discussed also in light of the incoming launch of the X-Ray Imaging and Spectroscopy Mission (XRISM) mission (spring 2023). [ABSTRACT FROM AUTHOR]

Published

2023

12. The nearby astrometric-spectroscopic binary star Hip 68682

Author

Fang Xia, Xiaoli Wang, Yanning Fu, and Yue Chen

Subjects

stars: binaries, stars: fundamental parameters, stars: individual (HIP 68682), stars: kinematics and dynamics, methods: data analysis, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

The nearby astrometric-spectroscopic binary star Hip 68682 has an orbital period of ∼ 9.88 yr. The dynamical state (component masses and kinematic parameters) of this system is redetermined by fitting all the observational data available to us, including the radial velocity data (RVD), the relative position data (RPD), and the Hipparcos Intermediate Astrometric Data (HIAD). The precision-weighted sum of squared residuals calculated from our results is significantly smaller than the previous ones. With the simulated data based on Chinese Space Station Telescope (CSST), the relative orbit could be improved further.Based on the known apparent magnitude information and the fitted parallax 60.59 ± 0.36 mas, we derive the absolute V magnitudes of the two components as 5.21 mag and 8.91 mag, respectively. The component masses are determined to be 0.946 ± 0.024M⊙ and 0.526 ± 0.014M⊙. These improved dynamical masses are helpful to constrain the stellar empirical mass–luminosity relation (MLR) for low mass stars. However, significant improvement of mass–luminosity relation for this mass region still needs more data.

Published

2023

13. Recent observations of humps and superhumps and an estimation of outburst parameters of the AM CVn star CR Boo.

Author

Boneva, Daniela, Zamanov, Radoslav, Boeva, Svetlana, Latev, Georgi, Nikolov, Yanko, Cvetković, Zorica, and Dimitrov, Wojciech

Subjects

*PARAMETER estimation, *ASTRONOMICAL observatories, *BINARY stars, *EARLY stars, *TELESCOPES, *COSMIC rays, *RED

Abstract

We present our observational results of AM CVn star CR Boo in the UBVR bands. Our observational campaign includes data obtained over 5 nights with the National Astronomical Observatory Rozhen, Belogradchik, and the AS Vidojevica telescopes. During the whole time of our observations the brightness of the system varied between 13.95 – 17.23 in the B band. We report the appearance of humps during the period of quiescence and superhumps during the active state of the object, (where the latter are detected on two nights). We obtain the superhumps periodicity for two nights, P s h ≈ 24.76 − 24.92 min. The color during maximum brightness is estimated as − 0.107 < (B − V) 0 < 0.257 and the corresponding temperature is in the range as 7700 [K] < T (B − V) 0 < 11 700 [K]. We found that CR Boo varies from bluer to redder in the nights with outbursts activity. The star becomes bluer during the times of superhumps. [ABSTRACT FROM AUTHOR]

Published

2022

14. role of supernova convection for the lower mass gap in the isolated binary formation of gravitational wave sources.

Author

Olejak, Aleksandra, Fryer, Chris L, Belczynski, Krzysztof, and Baibhav, Vishal

Subjects

*COMPACT objects (Astronomy), *GRAVITATIONAL waves, *SUPERGIANT stars, *STELLAR mass, *DISTRIBUTION of stars, *SUPERNOVAE, *SUPERNOVA remnants

Abstract

Understanding the astrophysical phenomena involving compact objects requires an insight about the engine behind the core-collapse supernovae (SNe) and the fate of the stellar collapse of massive stars. In particular, this insight is crucial in developing an understanding of the origin and formation channels of the growing populations of the detected black hole–black hole, black hole–neutron star, and neutron star–neutron star mergers. The time-scale of convection growth may have a large effect on the strength of SN explosion and therefore also on the mass distribution of stellar remnants. We adopt new formulas for the relation between the pre-SN star properties and their remnants and check how they impact the population of double compact object (DCO) mergers formed via the isolated binary evolution. The new formulas give one the ability to test a wide spectrum of assumptions on the convection growth time. In particular, the different variants allow for a smooth transition between having a deep mass gap and a remnant mass distribution filled by massive neutron stars and low-mass black holes. We present the distribution of masses, mass ratios, and the local merger rate densities of DCO for the different variants of new formulas and test them together with different approaches to other highly uncertain processes. We find that the mass distribution of DCO mergers is sensitive to the adopted assumption on the SN convection growth time-scale up to |$m_1+m_2 \lesssim 35 \, \mathrm{M}_{\odot }$|⁠. Between the two extreme tested variants the probability of compact object formation within the mass gap may differ by up to approximately two orders of magnitude. [ABSTRACT FROM AUTHOR]

Published

2022

15. Constraining the dynamical mass of the massive binary 9 Sagittarii.

Author

Fabry, Matthias, Hawcroft, Calum, Frost, Abigail J., Mahy, Laurent, Marchant, Pablo, Le Bouquin, Jean-Baptiste, and Sana, Hugues

Subjects

*BINARY stars, *HR diagrams

Abstract

Especially in the upper Hertzsprung-Russell diagram, where stellar physics is least understood, obtaining model independent masses is of great value. Spectroscopic binaries that are also resolved astrometrically are an excellent alternative to eclipsing double-lined spectroscopic binaries where dynamical masses can be measured. 9 Sgr is such a massive binary. However, its characterization is troubled by conflicting conclusions from the spectroscopic analysis on the one hand and the interferometric one on the other hand. In this work, we attempt to resolve this tension by applying a novel approach to spectral disentangling of the spectroscopic data to constrain better the mass of 9 Sgr. [ABSTRACT FROM AUTHOR]

Published

2024

16. The evolution of binary-stripped stars: consequences for supernovae and black hole formation.

Author

Laplace, Eva, Schneider, Fabian, Podsiadlowski, Philipp, de Mink, Selma, Justham, Stephen, Renzo, Mathieu, Götberg, Ylva, Farmer, Rob, and Vartanyan, David

Subjects

*STELLAR structure, *STELLAR evolution, *BLACK holes, *STARS, *NEUTRON stars

Abstract

Gravitational-wave (GW) observations are revealing the population of compact objects from a new angle. Yet their stellar progenitors remain uncertain because few observational clues on their progenitors exist. Theoretical models typically assume that the progenitor evolution can be approximated with single-star models. We explore how binary evolution affects the pre-supernova (SN) structure of stars, and the resulting distribution of compact object remnants. We focus on the differences in the core properties of single stars and of donor stars that transfer their outer layers in binary systems and become binary-stripped. We show that the final structures of binary-stripped stars that lose their outer layers before the end of core helium burning are systematically different compared to single stars. As a result, we find that binary-stripped stars tend to explode more easily than single stars and preferentially produce neutron stars and fewer black holes, with consequences for GW progenitors. [ABSTRACT FROM AUTHOR]

Published

2022

17. Hunting for red supergiant binaries: UVIT photometry of the SMC.

Author

Patrick, Lee R., Thilker, David, Lennon, Danny, Bianchi, Luciana, Schootemeijer, Abel, Dorda, Ricardo, Langer, Norbert, and Negueruela, Ignacio

Subjects

*COOL stars (Astronomy), *MAGELLANIC clouds, *BINARY stars, *PHOTOMETRY, *GALAXIES

Abstract

. We present UVIT/Astrosat UV photometry of the RSG population of the Small Cloud galaxy (SMC). As RSGs are extremely faint in the far-UV, these observations directly probe potential companion stars. From a sample of 861 SMC RSGs, we find 88 have detections at far-UV wavelengths: a clear signature of binarity. Stellar parameters are determined for both components, which allows us to study - for the first time - the mass-ratio (q) distribution of RSG binary systems. We find a flat mass-ratio distribution best describes the observations up to MRSG ∼15M⊙. We account for our main observing bias (i.e. the limiting magnitude of the UVIT survey) to determine the intrinsic RSG binary fraction of 18.8 ± 1.5 %, for mass-ratios in the range 0.3.< q <1.0 and orbital periods approximately in the range 3

Published

2022

18. The impact of binary interaction on the main-sequence morphology of young star clusters.

Author

Wang, Chen, Langer, Norbert, Schootemeijer, Abel, Milone, Antonino, Hastings, Ben, Xu, Xiao-Tian, Bodensteiner, Julia, Sana, Hugues, Castro, Norberto, Lennon, D. J., Marchant, Pablo, de Koter, A., and de Mink, Selma E.

Subjects

*MAIN sequence (Astronomy), *STAR clusters, *SUPERGIANT stars, *STELLAR mass, *HR diagrams

Abstract

Since massive stars form preferentially as members of close binary systems, we use dense grids of detailed binary evolution models to explore how binary evolution shapes the main-sequence morphology of young star clusters. We propose that binary mergers might be the origin of the blue main sequence stars in young star clusters. Our results imply that stars may either form by accretion, or through a binary merger, and that both paths lead to distinctly different spins, magnetic fields, and stellar mass distributions. [ABSTRACT FROM AUTHOR]

Published

2022

19. HR 6819 – a post-interaction binary system originally thought to be a triple system containing a black hole.

Author

Frost, Abigail J., Bodensteiner, Julia, Rivinius, Thomas, Baade, Dietrich, Merand, Antoine, Selman, Fernando, Abdul-Masih, Michael, Banyard, Gareth, Bordier, Emma, Dsilva, Karan, Hawcroft, Calum, Mahy, Laurent, Reggiani, Maddalena, Shenar, Tomer, Cabezas, Mauricio, Hadrava, Petr, Heida, Marianne, Klement, Robert, and Sana, Hugues

Subjects

*BLACK holes, *BINARY stars, *CHERNOZEM soils, *SYSTEMS theory, *INTEGRALS

Abstract

In 2020, HR 6819 was reported to be a triple system containing the closest black hole to Earth. However, these results were contested, with an alternative explanation of a post-interaction binary suggested. Using new integral field spectroscopic and interferometric data, we have been able to determine the true nature of this exotic source. [ABSTRACT FROM AUTHOR]

Published

2022

20. Multi-Messenger Constraints on the Hubble Constant through Combination of Gravitational Waves, Gamma-Ray Bursts and Kilonovae from Neutron Star Mergers.

Author

Bulla, Mattia, Coughlin, Michael W., Dhawan, Suhail, and Dietrich, Tim

Subjects

*HUBBLE constant, *STELLAR mergers, *NEUTRON stars, *GRAVITATIONAL waves, *GAMMA ray bursts, *COSMIC background radiation, *BINARY stars

Abstract

The simultaneous detection of gravitational waves and light from the binary neutron star merger GW170817 led to independent measurements of distance and redshift, providing a direct estimate of the Hubble constant H 0 that does not rely on a cosmic distance ladder, nor assumes a specific cosmological model. By using gravitational waves as "standard sirens", this approach holds promise to arbitrate the existing tension between the H 0 value inferred from the cosmic microwave background and those obtained from local measurements. However, the known degeneracy in the gravitational-wave analysis between distance and inclination of the source led to a H 0 value from GW170817 that was not precise enough to resolve the existing tension. In this review, we summarize recent works exploiting the viewing-angle dependence of the electromagnetic signal, namely the associated short gamma-ray burst and kilonova, to constrain the system inclination and improve on H 0 . We outline the key ingredients of the different methods, summarize the results obtained in the aftermath of GW170817 and discuss the possible systematics introduced by each of these methods. [ABSTRACT FROM AUTHOR]

Published

2022

21. Melnick 33Na: a very massive colliding-wind binary system in 30 Doradus.

Author

Bestenlehner, Joachim M, Crowther, Paul A, Broos, Patrick S, Pollock, Andrew M T, and Townsley, Leisa K

Subjects

*LARGE magellanic cloud, *VERY large telescopes, *EVOLUTIONARY models

Abstract

We present spectroscopic analysis of the luminous X-ray source Melnick 33Na (Mk 33Na, HSH95 16) in the Large Magellanic Cloud (LMC) 30 Doradus region (Tarantula Nebula), utilizing new time-series Very Large Telescope /Ultraviolet and Visual Echelle Spectrograph spectroscopy. We confirm Mk 33Na as a double-lined O-type spectroscopic binary with a mass ratio q  = 0.63 ± 0.02, e  = 0.33 ± 0.01, and orbital period of 18.3 ± 0.1 d, supporting the favoured period from X-ray observations obtained via the Tarantula – Revealed by X-rays survey. Disentangled spectra of each component provide spectral types of OC2.5 If* and O4 V for the primary and secondary, respectively. Unusually for an O supergiant the primary exhibits strong C  iv  4658 emission and weak N  v 4603-20, justifying the OC classification. Spectroscopic analysis favours extreme physical properties for the primary (T eff = 50 kK, log  L /L⊙ = 6.15) with system components of M 1 = 83 ± 19 M⊙ and M 2 = 48 ± 11 M⊙ obtained from evolutionary models, which can be reconciled with results from our orbital analysis (e.g. M 1sin 3 i  = 20.0 ± 1.2 M⊙) if the system inclination is ∼38° and it has an age of 0.9–1.6 Myr. This establishes Mk 33Na as one of the highest mass binary systems in the LMC, alongside other X-ray luminous early-type binaries Mk34 (WN5h+WN5h), R144 (WN5/6h+WN6/7h), and especially R139 (O6.5 Iafc + O6 Iaf). [ABSTRACT FROM AUTHOR]

Published

2022

22. Macroscale fast flow and magnetic-field generation in two-temperature relativistic electron–ion plasmas of astrophysical objects.

Author

Kotorashvili, K. and Shatashvili, N. L.

Subjects

*PLASMA astrophysics, *RELATIVISTIC plasmas, *DISPERSION relations, *WHITE dwarf stars, *MAGNETIC fields

Abstract

We have shown the simultaneous generation of macroscale fast flows and strong magnetic fields in the two-temperature relativistic electron–ion plasmas of astrophysical objects due to the Unified Reverse Dynamo/Dynamo mechanism. The resulting dynamical magnetic-field amplification and/or flow acceleration is directly proportional to the initial turbulent kinetic/magnetic (magnetic) energy; the process is very sensitive to the relativistically hot electron–ion fraction temperature and the magnetofluid coupling. It is shown that for realistic physical parameters of White Dwarfs accreting hot astrophysical flow /Binary systems there always exists such a real solution of the dispersion relation for which the formation of dispersive strong super-Alfvénic macroscale flow/outflow with Alfvén–Mach number > 10 6 and/or generation of superstrong magnetic fields is guaranteed. [ABSTRACT FROM AUTHOR]

Published

2022

23. Space-Based Photometry of Binary Stars: From Voyager to TESS.

Author

Southworth, John

Subjects

*PHOTOMETRY, *BINARY stars, *TELESCOPES, *SUPERGIANT stars

Abstract

Binary stars are crucial laboratories for stellar physics, so have been photometric targets for space missions beginning with the very first orbiting telescope (OAO-2) launched in 1968. This review traces the binary stars observed and the scientific results obtained from the early days of ultraviolet missions (OAO-2, Voyager, ANS, IUE), through a period of diversification (Hipparcos, WIRE, MOST, BRITE), to the current era of large planetary transit surveys (CoRoT, Kepler, TESS). In this time observations have been obtained of detached, semi-detached and contact binaries containing dwarfs, sub-giants, giants, supergiants, white dwarfs, planets, neutron stars and accretion discs. Recent missions have found a huge variety of objects such as pulsating stars in eclipsing binaries, multi-eclipsers, heartbeat stars and binaries hosting transiting planets. Particular attention is paid to eclipsing binaries, because they are staggeringly useful, and to the NASA Transiting Exoplanet Survey Satellite (TESS) because its huge sky coverage enables a wide range of scientific investigations with unprecedented ease. These results are placed into context, future missions are discussed, and a list of important science goals is presented. [ABSTRACT FROM AUTHOR]

Published

2021

24. Spectroscopic signatures of the vanishing natural coronagraph of Eta Carinae.

Author

Damineli, A, Navarete, F, Hillier, D J, Moffat, A F J, Corcoran, M F, Gull, T R, Richardson, N D, Weigelt, G, Morris, P W, and Stevens, I

Subjects

*SPECTRAL lines, *ABSOLUTE value, *STELLAR winds, *MASS loss (Astrophysics), *NEBULAE, *BINARY stars, *FLUX (Energy)

Abstract

Eta Carinae is a massive interacting binary system shrouded in a complex circumstellar environment whose evolution is the source of the long-term brightening observed during the last 80 yr. An occulter, acting as a natural coronagraph, impacts observations from our perspective, but not from most other directions. Other sight-lines are visible to us through studies of the Homunculus reflection nebula. The coronagraph appears to be vanishing, decreasing the extinction towards the central star, and causing the star's secular brightening. In contrast, the Homunculus remains at an almost constant brightness. The coronagraph primarily suppresses the stellar continuum, to a lesser extent the wind lines, and not the circumstellar emission lines. This explains why the absolute values of equivalent widths (EWs) of the emission lines in our direct view are larger than those seen in reflected by the Homunculus, why the direct view absolute EWs are decreasing with time, and why lower-excitation spectral wind lines formed at larger radii (e.g Fe  ii 4585 Å) decrease in intensity at a faster pace than higher excitation lines that form closer to the star (e.g. H δ). Our main result is that the star, despite its 10-fold brightening over two decades, is relatively stable. A vanishing coronagraph that can explain both the large flux evolution and the much weaker spectral evolution. This is contrary to suggestions that the long-term variability is intrinsic to the primary star that is still recovering from the Great Eruption with a decreasing mass-loss rate and a polar wind that is evolving at a slower pace than at the equator. [ABSTRACT FROM AUTHOR]

Published

2021

25. Asteroseismology of Close Binary Stars: Tides and Mass Transfer

Author

Zhao Guo

Subjects

stars early-type, evolution, oscillations, stars: binaries, asteroseismology, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

The study of stellar oscillations allows us to infer the properties of stellar interiors. Meanwhile, fundamental parameters such as mass and radius can be obtained by studying stars in binary systems. The synergy between binarity and asteroseismology can constrain the parameter space of stellar properties and facilitate the asteroseismic inference. On the other hand, binarity also introduces additional complexities such tides and mass transfer. From an observational perspective, we briefly review the recent advances in the study of tidal effects on stellar oscillations, focusing on upper main sequence stars (F-, A-, or OB- type). The effect can be roughly divided into two categories. The first one concerns the tidally excited oscillations (TEOs) in eccentric binaries where TEOs are mostly due to resonances between dynamical tides and gravity modes of the star. TEOs appear as orbital-harmonic oscillations on top of the eccentric ellipsoidal light curve variations (the “heartbeat” feature). The second category is regarding the self-excited oscillations perturbed by static tides in circularized and synchronized close binaries. It includes the tidal deformation of the propagation cavity and its effect on eigenfrequencies, eigenfunctions, and the pulsation alignment. We list binary systems that show these two types of tidal effect and summarize the orbital and pulsation observables. We also discuss the theoretical approaches used to model these tidal oscillations and relevant complications such as non-linear mode coupling and resonance locking. Further information can be extracted from the observations of these oscillations which will improve our understanding of tides. We also discuss the effect of mass transfer, the extreme result of tides, on stellar oscillations. We bring to the readers' attention: (1) oscillating stars undergoing mass accretion (A-, F-, and OB type pulsators and white dwarfs), for which the pulsation properties may be changed significantly by accretion; (2) post-mass transfer pulsators, which have undergone a stable or unstable Roche-Lobe overflow. These pulsators have great potential in probing detailed physical processes in stellar interiors and mass transfer, as well as in studying the binary star populations.

Published

2021

26. Multi-Messenger Constraints on the Hubble Constant through Combination of Gravitational Waves, Gamma-Ray Bursts and Kilonovae from Neutron Star Mergers

Author

Mattia Bulla, Michael W. Coughlin, Suhail Dhawan, and Tim Dietrich

Subjects

gravitational waves, stars: neutron, stars: binaries, cosmology: cosmological parameters, cosmology: distance scale, cosmology: cosmic background radiation, Elementary particle physics, QC793-793.5

Abstract

The simultaneous detection of gravitational waves and light from the binary neutron star merger GW170817 led to independent measurements of distance and redshift, providing a direct estimate of the Hubble constant H0 that does not rely on a cosmic distance ladder, nor assumes a specific cosmological model. By using gravitational waves as “standard sirens”, this approach holds promise to arbitrate the existing tension between the H0 value inferred from the cosmic microwave background and those obtained from local measurements. However, the known degeneracy in the gravitational-wave analysis between distance and inclination of the source led to a H0 value from GW170817 that was not precise enough to resolve the existing tension. In this review, we summarize recent works exploiting the viewing-angle dependence of the electromagnetic signal, namely the associated short gamma-ray burst and kilonova, to constrain the system inclination and improve on H0. We outline the key ingredients of the different methods, summarize the results obtained in the aftermath of GW170817 and discuss the possible systematics introduced by each of these methods.

Published

2022

27. The multiplicity of Galactic Wolf-Rayet stars.

Author

Dsilva, Karan, Shenar, Tomer, Sana, Hugues, and Marchant, Pablo

Subjects

*WOLF-Rayet stars, *STELLAR evolution, *BINARY stars, *CROSS correlation, *MULTIPLICITY (Mathematics)

Abstract

We present the results of a magnitude-limited spectroscopic survey of Galactic Wolf-Rayet stars with the HERMES spectrograph mounted on the Mercator telescope. Using cross-correlation to measure radial velocities, we measured the observed binary fractions of the Galactic carbon- (WC) and nitrogen-rich (WN) Wolf-Rayet stars to be and. We used Monte-Carlo simulations with a Bayesian framework to derive the intrinsic multiplicity properties and found and. We find that the majority of WN binaries reside in short-period systems, similar to O stars. However, the orbital period distribution of the Galactic WC population peaks at 5000 d, a discrepancy that challenges our current understanding of binary evolution in Wolf-Rayet stars. [ABSTRACT FROM AUTHOR]

Published

2022

28. Near and far: a hunt for binary-interaction products.

Author

Bodensteiner, J., Sana, H., Mahy, L., Shenar, T., Banyard, G., and Wang, C.

Subjects

*MAGELLANIC clouds, *STAR clusters, *BINARY stars, *GALAXIES, *PHYSICS

Abstract

Direct observations of the products of binary interactions are sparse, yet they provide important insights on the outcome of the interaction and the physics at play. Young and intermediate-age star clusters are the ideal tool to search for, and characterize such interaction products and allow for a detailed comparison to theoretical predictions. We here report on integral field spectroscopy obtained with MUSE for several such clusters in the Magellanic Clouds. [ABSTRACT FROM AUTHOR]

Published

2022

29. Spins of stripped B stars support magnetic internal angular momentum transport.

Author

Schürmann, Christoph, Langer, Norbert, Xu, Xiao-Tian, and Wang, Chen

Subjects

*STELLAR magnetic fields, *ANGULAR momentum (Mechanics), *MAGNETIC torque, *BINARY stars, *B stars

Abstract

The galactic binary star LB-1 contains a recently stripped B-type star. Comparing its properties to detailed binary star models shows that tidal braking and magnetic torques lead to low surface rotational velocities in the stripped donors after Roche-lobe overffiow. Models without magnetic torques cannot reproduce the observed low surface rotation. [ABSTRACT FROM AUTHOR]

Published

2022

30. Mass from a third star: transformations of close compact-object binaries within hierarchical triples.

Author

Di Stefano, R

Subjects

*TYPE I supernovae, *NEUTRON stars, *BLACK holes, *DWARF stars, *MASS transfer, *BINARY black holes, *WHITE dwarf stars

Abstract

Close-orbit binaries consisting of two compact objects are a centre of attention because of the detection of gravitational-radiation-induced mergers. The creation of close, compact-object binaries involves physical processes that are not yet well understood; there are open questions about the manner in which two compact objects come to be close enough to merge within a Hubble time. Here, we explore an important, and likely common physical process: mass transfer from a third star in a wider, hierarchical orbit. Mass added to the close binary's components can reduce the time to merger and can even change the nature of an accretor, transforming a white dwarf to a neutron star and/or a neutron star to a black hole. Some accreting WDs in close binaries may even explode as Type Ia supernovae. Given the ubiquity of higher order multiples, the evolutionary channels we lay out may be important pathways to gravitational mergers, including Type Ia supernovae. Fortunately, these pathways also lead to testable predictions. [ABSTRACT FROM AUTHOR]

Published

2020

31. Magnetic geometry and surface differential rotation of the bright Am star Alhena A.

Author

Blazère, Aurore, Petit, Pascal, Neiner, Coralie, Folsom, Colin, Kochukhov, Oleg, Mathis, Stéphane, Deal, Morgan, and Landstreet, John

Subjects

*DIFFERENTIAL geometry, *SURFACE geometry, *MAGNETIC flux density, *MAIN sequence (Astronomy), *STELLAR magnetic fields, *MAGNETIC structure, *LATITUDE

Abstract

Alhena A (γ Gem A) is a bright Am star, with the strongest disc-integrated magnetic field strength reported so far for an Am star. Its spectrum exhibits standard circularly polarized Zeeman signatures, contrary to all previously studied Am stars that display abnormal signatures dominated by a single-signed lobe. We present here the result of follow-up observations of Alhena, using very high signal-to-noise spectropolarimetric data obtained over 25 observing nights with NARVAL at Télescope Bernard Lyot, in the frame of the BRITE (BRIght Target Explorer) spectropolarimetric survey. We confirm that Alhena A is magnetic and we determine its surface magnetic properties using different methods. Inclined dipole models are used to reproduce the longitudinal field measurements, as well as the Stokes V line profiles themselves. In both cases, the model is consistent with a polar field strength of ∼30 G. This is confirmed by a Zeeman-Doppler Imaging (ZDI) model, which also unveils smaller scale magnetic structures. A rotational period of 8.975 d was identified using intensity line profile variations. The ZDI inversion suggests that the surface magnetic field is sheared by differential rotation, with a difference in rotation rate between high and low latitudes at about 15 per cent of the solar value. This result challenges theories of the development of surface differential rotation in intermediate mass main-sequence stars. [ABSTRACT FROM AUTHOR]

Published

2020

32. Space-Based Photometry of Binary Stars: From Voyager to TESS

Author

John Southworth

Subjects

stars: binaries, stars: fundamental parameters, stars: oscillations, techniques: photometric, Elementary particle physics, QC793-793.5

Abstract

Binary stars are crucial laboratories for stellar physics, so have been photometric targets for space missions beginning with the very first orbiting telescope (OAO-2) launched in 1968. This review traces the binary stars observed and the scientific results obtained from the early days of ultraviolet missions (OAO-2, Voyager, ANS, IUE), through a period of diversification (Hipparcos, WIRE, MOST, BRITE), to the current era of large planetary transit surveys (CoRoT, Kepler, TESS). In this time observations have been obtained of detached, semi-detached and contact binaries containing dwarfs, sub-giants, giants, supergiants, white dwarfs, planets, neutron stars and accretion discs. Recent missions have found a huge variety of objects such as pulsating stars in eclipsing binaries, multi-eclipsers, heartbeat stars and binaries hosting transiting planets. Particular attention is paid to eclipsing binaries, because they are staggeringly useful, and to the NASA Transiting Exoplanet Survey Satellite (TESS) because its huge sky coverage enables a wide range of scientific investigations with unprecedented ease. These results are placed into context, future missions are discussed, and a list of important science goals is presented.

Published

2021

33. Finding binary star fractions in any distribution.

Author

Akter, Suraiya and Goodwin, Simon P

Subjects

*BINARY stars, *GAUSSIAN distribution, *STELLAR parallax

Abstract

Candidate visual binary systems are often found by identifying two stars that are closer together than would be expected by chance. However, in regions with non-trivial density distributions, the 'random' distances between stars varies because of the background distribution, as well as the presence of binaries. We show that when no binaries are present, the distribution of the ratios of the distances to the nearest and tenth nearest neighbours, d 1/ d 10, is always well approximated by a Gaussian with mean 0.2–0.3 and variance 0.16–0.19 for any underlying density distribution. The introduction of binaries causes some (or all) nearest neighbours to become closer than expected by random chance, introducing a component to the distribution where d 1/ d 10 is much lower than expected. We show how a simple single or double Gaussian fit to the distribution of d 1/ d 10 can be used to find the binary fraction in any underlying density distribution quickly and simply. [ABSTRACT FROM AUTHOR]

Published

2019

34. Stellar binaries that survive supernovae.

Author

Kochanek, C S, Auchettl, K, and Belczynski, K

Subjects

*SUPERNOVA remnants, *NEUTRON stars, *SUPERNOVAE, *BINARY black holes, *BINARY stars, *X-ray binaries

Abstract

The number of binaries containing black holes (BH) or neutron stars (NS) depends critically on the fraction of binaries that survive supernova (SN) explosions. We searched for surviving star plus remnant binaries in a sample of 49 supernova remnants (SNR) containing 23 previously identified compact remnants and three high-mass X-ray binaries (HMXB), finding no new interacting or non-interacting binaries. The upper limits on any main-sequence stellar companion are typically |$\lesssim 0.2\, \mathrm{M}_\odot$| and are at worst |$\lesssim 3\, \mathrm{M}_\odot$|⁠. This implies that f < 0.1 of core-collapse SNRs contain a non-interacting binary, and f  = 0.083 (0.032 < f < 0.17) contain an interacting binary at 90 per cent confidence. We also find that the transverse velocities of HMXBs are low, with a median of only 12 km s−1 for field HMXBs, so surviving binaries will generally be found very close to the explosion centre. We compare the results to a 'standard' StarTrack binary population synthesis (BPS) model, finding reasonable agreement with the observations. In particular, the BPS models predict that 6 per cent of initial binaries leave a star plus remnant binary, or 5 per cent of SNRs assuming an 84 per cent binary fraction. [ABSTRACT FROM AUTHOR]

Published

2019

35. The Cartwheel galaxy as a stepping stone for binaries formation.

Author

Wolter, Anna, Consolandi, Guido, Longhetti, Marcella, Landoni, Marco, and Bianco, Andrea

Abstract

Ultraluminous X-ray sources (ULXs) are end points of stellar evolution. They are mostly interpreted as binary systems with a massive donor. They are also the most probable progenitors for BH-BH, and even more, for BH-NS coalescence. Parameters of ULXs are not know and need to be better determined, in particular the link with the metallicity of the environment which has been invoked frequently but not proven strongly. We have tackled this problem by using a MUSE DEEP mosaic of the Cartwheel galaxy and applying a Monte Carlo code that jointly fits spectroscopy and photometry. We measure the metallicity of the emitting gas in the ring and at the positions of X-ray sources by constructing spatially resolved emission line ratio maps and BPT diagnostic maps. The Carthweel is the archetypal ring galaxy and the location and formation time of new stellar populations is easier to reconstruct than in more normal galaxies. It has the largest population of ULXs ever observed in a single galaxy (16 sources have been classified as ULXs in Chandra and XMM-Newton data). The Cartwheel galaxy is therefore the ideal laboratory to study the relation between Star Formation (SF Rates and SF History) and number of ULXs and also their final fate. We find that the age of the stellar population in the outer ring is consistent with being produced in the impact (≤300 Myr) and that the metallicity is mostly sub-solar, even if solutions can be found with a solar metallicity that account for most observed properties. The findings for the Cartwheel will be a testbed for further modelisation of binary formation and evolution paths. [ABSTRACT FROM AUTHOR]

Published

2018

36. Local merger rates of double neutron stars.

Author

Chruslinska, Martyna

Abstract

The first detection of gravitational waves from a merging double neutron star (DNS) binary implies a much higher rate of DNS coalescences in the local Universe than typically estimated on theoretical grounds. The recent study by Chruslinska et al. (2018) shows that apart from being particularly sensitive to the common envelope treatment, DNS merger rates appear rather robust against variations of several factors probed in their study (e.g. conservativeness of the mass transfer, angular momentum loss, and natal kicks), unless extreme assumptions are made. Confrontation with the improving observational limits may allow to rule out some of the extreme models. To correctly compare model predictions with observational limits one has to account for the other factors that affect the rates. One of those factors relates to the assumed history of star formation and chemical evolution of the Universe and its impact on the final results needs to be better constrained. [ABSTRACT FROM AUTHOR]

Published

2018

37. Post-RGB and Post-AGB stars as tracers of binary evolution.

Author

Kamath, Devika

Abstract

Binary interactions can alter the intrinsic properties of stars (such as: pulsation, mass-loss, photospheric chemistry, dust-formation, circumstellar envelope morphology etc.) and can even play a dominant role in determining its ultimate fate. While past studies have shown that binarity can end the AGB life of a star, recent studies have revealed that in specific cases binarity also pre-maturely terminate the RGB evolution. A characteristic feature of evolved binaries is the presence of a Keplerian circumbinary disc of gas and dust which plays a lead role in the evolution of the systems. In this article, I will review our advances in the research landscape of post-RGB and post-AGB binary stars, focussing on their observational properties, spectral energy distribution, photospheric chemistry, the evolution of their stable circumbinary discs, and the evolutionary connection between the enigmatic post-AGB/post-RGB binaries, and other systems whose primary component is a white dwarf. [ABSTRACT FROM AUTHOR]

Published

2018

38. Early stages of star formation

Author

André, Philippe, Hennebelle, Patrick, Peretto, Nicolas, Bachiller, Rafael, editor, and Cernicharo, José, editor

Published

2008

39. Gamma rays from colliding winds of massive stars

Author

Reimer, Anita, Reimer, Olaf, Pohl, Martin, Paredes, Josep M., editor, Reimer, Olaf, editor, and Torres, Diego F., editor

Published

2007

40. Automated Analysis of Light Curves of OGLE LMC Binaries: The Period distribution

Author

Mazeh, Tsevi, Tamuz, Omer, North, Pierre, Giménez, Àlvaro, editor, Guinan, Edward, editor, Niarchos, Panagiotis, editor, and Rucinski, Slavek, editor

Published

2006

41. An Orbital Stability Study of the Proposed Companions of SW Lyncis

Author

T. C. Hinse, Jonathan Horner, and Robert A. Wittenmyer

Subjects

stars: individual (SW Lyncis), stars: binaries, methods: n-body, methods: celestial mechanics, Astronomy, QB1-991

Abstract

We have investigated the dynamical stability of the proposed companions orbiting the Algol type short-period eclipsing binary SW Lyncis (Kim et al. 2010). The two candidate companions are of stellar to substellar nature, and were inferred from timing measurements of the system’s primary and secondary eclipses. We applied well-tested numerical techniques to accurately integrate the orbits of the two companions and to test for chaotic dynamical behavior. We carried out the stability analysis within a systematic parameter survey varying both the geometries and orientation of the orbits of the companions, as well as their masses. In all our numerical integrations we found that the proposed SW Lyn multi-body system is highly unstable on time-scales on the order of 1000 years. Our results cast doubt on the interpretation that the timing variations are caused by two companions. This work demonstrates that a straightforward dynamical analysis can help to test whether a best-fit companion-based model is a physically viable explanation for measured eclipse timing variations. We conclude that dynamical considerations reveal that the proposed SW Lyncis multi-body system most likely does not exist or the companions have significantly different orbital properties from those conjectured in Kim et al. (2010).

Published

2014

42. Multi-Messenger Constraints on the Hubble Constant Through Combination of Gravitational Waves, Gamma-Ray Bursts and Kilonovae from Neutron Star Mergers

Author

Bulla, M, Coughlin, MW, Dhawan, S, Dietrich, T, Bulla, Mattia [0000-0002-8255-5127], Coughlin, Michael W. [0000-0002-8262-2924], Dhawan, Suhail [0000-0002-2376-6979], Dietrich, Tim [0000-0003-2374-307X], and Apollo - University of Cambridge Repository

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), stars: neutron, Cosmology and Nongalactic Astrophysics (astro-ph.CO), gravitational waves, cosmology: cosmic background radiation, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, cosmology: cosmological parameters, Astrophysics - High Energy Astrophysical Phenomena, cosmology: distance scale, Astrophysics - Cosmology and Nongalactic Astrophysics, stars: binaries

Abstract

The simultaneous detection of gravitational waves and light from the binary neutron star merger GW170817 led to independent measurements of distance and redshift, providing a direct estimate of the Hubble constant $H_0$ that does not rely on a cosmic distance ladder nor assumes a specific cosmological model. By using gravitational waves as ''standard sirens'', this approach holds promise to arbitrate the existing tension between the $H_0$ value inferred from the cosmic microwave background and those obtained from local measurements. However, the known degeneracy in the gravitational-wave analysis between distance and inclination of the source lead to a $H_0$ value from GW170817 that was not precise enough to resolve the existing tension. In this review, we summarize recent works exploiting the viewing-angle dependence of the electromagnetic signal, namely the associated short gamma-ray burst and kilonova, to constrain the system inclination and improve on $H_0$. We outline the key ingredients of the different methods, summarize the results obtained in the aftermath of GW170817 and discuss the possible systematics introduced by each of these methods., invited review accepted for publication in the journal Universe as part of the special issue 'Gamma-Ray Bursts: Observational and Theoretical Prospects in the Era of Multi-Messenger Astronomy', 23 pages, 3 figures, 1 table

Published

2022

43. Interactions in Massive Colliding Wind Binaries

Author

Michael F. Corcoran

Subjects

stars: binaries, X-ray: stars, stars (individual): Eta Carinae, stars (individual): WR 140, Astronomy, QB1-991

Abstract

There are observational difficulties determining dynamical masses of binary star components in the upper HR diagram both due to the scarcity of massive binary systems and spectral and photometric contamination produced by the strong wind outflows in these systems. We discuss how variable X-ray emission in these systems produced by wind-wind collisions in massive binaries can be used to constrain the system parameters, with application to two important massive binaries, Eta Carinae and WR 140.

Published

2012

44. Constraining the dynamical mass of the massive binary 9 Sagittarii.

Author

Fabry, Matthias, Hawcroft, Calum, Frost, Abigail J., Mahy, Laurent, Marchant, Pablo, Le Bouquin, Jean-Baptiste, and Sana, Hugues

Subjects

*BINARY stars, *HR diagrams

Abstract

Especially in the upper Hertzsprung-Russell diagram, where stellar physics is least understood, obtaining model independent masses is of great value. Spectroscopic binaries that are also resolved astrometrically are an excellent alternative to eclipsing double-lined spectroscopic binaries where dynamical masses can be measured. 9 Sgr is such a massive binary. However, its characterization is troubled by conflicting conclusions from the spectroscopic analysis on the one hand and the interferometric one on the other hand. In this work, we attempt to resolve this tension by applying a novel approach to spectral disentangling of the spectroscopic data to constrain better the mass of 9 Sgr. [ABSTRACT FROM AUTHOR]

Published

2022

45. Surveying Planetary Nebulae Central Stars for Close Binaries: Constraining Evolution of Central Stars Based on Binary Parameters

Author

Todd Hillwig

Subjects

planetary nebulae, stars: binaries, central stars of planetary nebulae, proto-planetary nebulae, Astronomy, QB1-991

Abstract

The increase in discovered close binary central stars of planetary nebulae is leading to a sufficiently large sample to begin to make broader conclusions about the effect of close binary stars on common envelope evolution and planetary nebula formation. Herein I review some of the recent results and conclusions specifically relating close binary central stars to nebular shaping, common envelope evolution off the red giant branch, and the total binary fraction and double degenerate fraction of central stars. Finally, I use parameters of known binary central stars to explore the relationship between the proto-planetary nebula and planetary nebula stages, demonstrating that the known proto-planetary nebulae are not the precursors of planetary nebulae with close binary central stars.

Published

2018

46. Planets, Planetary Nebulae, and Intermediate Luminosity Optical Transients (ILOTs)

Author

Noam Soker

Subjects

planetary systems, planetary nebulae, stars: binaries, stars: AGB and post-AGB, stars: variables: general, Astronomy, QB1-991

Abstract

I review some aspects related to the influence of planets on the evolution of stars before and beyond the main sequence. Some processes include the tidal destruction of a planet on to a very young main sequence star, on to a low-mass main sequence star, and on to a brown dwarf. This process releases gravitational energy that might be observed as a faint intermediate luminosity optical transient (ILOT) event. I then summarize the view that some elliptical planetary nebulae are shaped by planets. When the planet interacts with a low-mass, upper asymptotic giant branch (AGB) star, it both enhances the mass-loss rate and shapes the wind to form an elliptical planetary nebula, mainly by spinning up the envelope and by exciting waves in the envelope. If no interaction with a companion, stellar or substellar, takes place beyond the main sequence, the star is termed a Jsolated star, and its mass-loss rates on the giant branches are likely to be much lower than what is traditionally assumed.

Published

2018

47. Revised Wolf-Rayet Binary Orbits and New Binaries

Author

Niemela, V. S., van der Hucht, Karel A., editor, and Williams, Peredur M., editor

Published

1995

48. Photometric studies of the short-period eclipsing binary V1094 Her and MT Cas

Author

Jiang, Linyan, Zhang, Li-Yun, Han, Xianming L., and Lu, Hongpeng

Published

2021

49. The Massive Star Distribution in the Galaxy and the Magellanic Clouds

Author

Van Der Hucht, Karel A., Vanbeveren, D., editor, van Rensbergen, W., editor, and de Loore, C., editor

Published

1994

50. Variability and Origin of Permanent Radio Emission in RS CVn and Algol Type Binaries

Author

Lefèvre, E., Klein, K.-L., Lestrade, J.-F., and Van den Oord, G. H. J., editor

Published

1994