Your search keyword '"B stars"' showing total 1,358 results

1. A spectroscopic and kinematic survey of fast hot subdwarfs.

Author

Geier, S., Heber, U., Irrgang, A., Dorsch, M., Bastian, A., Neunteufel, P., Kupfer, T., Bloemen, S., Kreuzer, S., Möller, L., Schindewolf, M., Schneider, D., Ziegerer, E., Pelisoli, I., Schaffenroth, V., Barlow, B. N., Raddi, R., Geier, S. J., Reindl, N., and Rauch, T.

Subjects

*STELLAR dynamics, *TYPE I supernovae, *STARS, *B stars, *GALACTIC halos

Abstract

Hot subdwarfs (sdO/B) are the stripped helium cores of red giants formed via binary interactions. Close hot subdwarf binaries with massive white dwarf companions have been proposed as possible progenitors of thermonuclear supernovae type Ia (SN Ia). If the supernova is triggered by stable mass transfer from the helium star, the companion should survive the explosion and should be accelerated to high velocities. The hypervelocity star US 708 is regarded as the prototype for such an ejected companion. To find more of those objects we conducted an extensive spectroscopic survey. Candidates for such fast stars have been selected from the spectroscopic database of the Sloan Digital Sky Survey (SDSS) and several ground-based proper-motion surveys. Follow-up spectroscopy has been obtained with several 4m- to 10m-class telescopes. Combining the results from quantitative spectroscopic analyses with space-based astrometry from Gaia Early Data Release 3 (EDR3) we determined the atmospheric and kinematic parameters of 53 fast hot subdwarf stars. None of these stars is unbound to the Galaxy, although some have Galactic restframe velocities close to the Galactic escape velocity. 21 stars are apparently single objects, that crossed the Galactic disc within their lifetimes in the sdO/B stage and could be regarded as potential candidates for the SN Ia ejection scenario. However, the properties of the full sample are more consistent with a pure old Galactic halo population. We therefore conclude that the fast sdO/B stars we found are likely to be extreme halo stars. [ABSTRACT FROM AUTHOR]

Published

2024

2. The GAPS programme at TNG: LX. Atmospheric characterisation of KELT-9 b via single-line analysis: Detection of six H I Balmer lines, Na I, Ca I, Ca II, Fe I, Fe II, Mg I, Ti II, Sc II, and Cr II.

Author

D'Arpa, M. C., Saba, A., Borsa, F., Fossati, L., Micela, G., Di Maio, C., Stangret, M., Tripodo, G., Affer, L., Bonomo, A. S., Benatti, S., Brogi, M., Fardella, V., Lanza, A. F., Guilluy, G., Maldonado, J., Mantovan, G., Nascimbeni, V., Pino, L., and Scandariato, G.

Subjects

*NATURAL satellite atmospheres, *NATURAL satellites, *PLANETARY atmospheres, *B stars, *PLANETARY systems

Abstract

Aims. We analysed six primary transits of the ultra-hot Jupiter KELT-9 b obtained with the HARPS-N high-resolution spectrograph in the context of the Global Architecture of Planetary Systems (GAPS2) project, to characterise the atmosphere via single-line analysis. Methods. We extracted the transmission spectrum of each individual line by comparing the master out-of-transit spectrum with the in-transit spectra and computing the weighted average of the tomography in the planet reference frame. We corrected for the centre-to-limb variation and the Rossiter-McLaughlin effect by modelling the region of the star disc obscured by the planet during the transit and subtracting it from the master-out spectrum. Results. We detected all six observable lines of the Balmer series within the HARPS-N wavelength range, from Hα to Hζ, with a significance exceeding 5σ. We also focussed on metal species, detecting Na I, Ca I, Ca II, Fe I, Fe II, Mg I, Ti II, Sc II, and Cr II lines. This is the first detection in the atmosphere of an exoplanet of Hϵ and Hζ lines, as well as of individual lines of Sc II and Cr II. Our detections are supported by a comparison with published synthetic transmission spectra of KELT-9b obtained accounting for non-local thermodynamic equilibrium effects. The results underline the presence of a systematic blueshift due to night-side to day-side winds. Conclusions. The single-line analysis allowed us not only to assess the presence of atomic species in the atmosphere of KELT-9 b, but also to further characterise the local stratification of the atmosphere. Coupling the height distribution of the detected species with the velocity shift retrieved, we acknowledged the height distribution of night-side to day-side winds. Moreover, the study of the rotational broadening of the different species supports the prediction of a tidally locked planet rotating as a rigid body. [ABSTRACT FROM AUTHOR]

Published

2024

3. SPHERE RefPlanets: Search for ε Eridani b and warm dust.

Author

Tschudi, C., Schmid, H. M., Nowak, M., Le Coroller, H., Hunziker, S., van Holstein, R. G., Perrot, C., Mouillet, D., Augereau, J.-C., Bazzon, A., Beuzit, J. L., Boccaletti, A., Bonse, M. J., Chauvin, G., Desidera, S., Dohlen, K., Dominik, C., Engler, N., Feldt, M., and Girard, J. H.

Subjects

*EXTRASOLAR planets, *HABITABLE planets, *ADAPTIVE optics, *PLANETARY orbits, *B stars

Abstract

Context. Cold planets, including all habitable planets, produce only scattered light emission in the visual to near-infrared wavelength range. For this reason it is highly desirable to adapt the technique for the direct imaging of reflected light from extra-solar planets. Aims. For the nearby system ε Eri, we want to set much deeper detection limits for the expected scattered radiation from the radial velocity planet candidate (≈0.7 MJ) and the warm dust using the VLT/SPHERE adaptive optics (AO) instrument with the ZIMPOL imaging polarimeter. Methods. We carried out very deep imaging polarimetry of ε Eri based on 38.5 h of integration time with a broad-band filter (λc = 735 nm) for the search of the polarization signal from a planet or from circumstellar dust using AO, coronagraphy, high precision differential polarimetry, and angular differential imaging. The data were collected during 12 nights within four epochs distributed over 14 months and we searched for a signal in the individual epochs. We also combined the full data set to achieve an even higher contrast limit considering the Keplerian motion using the K-Stacker software. All data were also combined for the search of the scattering signal from extended dust clouds. We improved various data reduction and post-processing procedures and also developed new ones to enhance the sensitivity of SPHERE/ZIMPOL further. The final detection limits were quantified and we investigated the potential of SPHERE/ZIMPOL for deeper observations. Results. The data of ε Eridani provide unprecedented contrast limits but no significant detection of a point source or an extended signal from circumstellar dust. For each observing epoch, we achieved a 5 σ풩 point source contrast for the polarized intensity CP = Qϕ/I★ between 2 × 10−8 and 4 × 10−8 at a separation of ρ ≈ 1″, which is as expected for the proposed radial velocity planet at a quadrature phase. The polarimetric contrast limits are close to the photon noise limits for ρ > 0.6″ or about six times to 50 times better than the intensity limits because polarimetric imaging is much more efficient for speckle suppression. Combining the data for the search of a planet moving on a Keplerian orbit with the K-Stacker technique improves the contrast limits further by about a factor of two, when compared to an epoch, to about CP = 0.8 × 10−8 at ρ = 1″. This would allow the detection of a planet with a radius of about 2.5 RJ. Should future astrometry provide strong constraints on the position of the planet, then a 3 σ풩 detection at 1″ with CP ≈ 5 × 10−9 would be within reach of our data. The surface brightness contrast limits achieved for the polarized intensity from an extended scattering region is about 15 mag arcsec−2 at 1″ or up to 3 mag arcsec−2 deeper than previous limits. For ε Eri, these limits exclude the presence of a narrow dust ring and they constrain the dust properties. The photon statistics would allow deeper limits but we find a very weak systematic noise pattern probably introduced by polarimetric calibration errors. Conclusions. This ε Eri study shows that the polarimetric contrast limits for reflecting planets with SPHERE/ZIMPOL can be improved to a level below Cp < 10−8 by just collecting more data during many nights using software such as K-Stacker, which can combine all data considering the expected planet orbit. Contrast limits of Cp ≈ 10−9 are within reach for ε Eri if the search can be optimized for a planet with a well-known orbit. This limit is also attainable for other bright nearby stars, such as α Cen or Sirius A. Such data also provide unprecedented sensitivity for the search of extended polarized emission from warm circumstellar dust. [ABSTRACT FROM AUTHOR]

Published

2024

4. Discovery of a Long Thermonuclear X-Ray Burst from the Ultracompact Binary 4U 1850–087.

Author

Lu, Yongqi, Li, Zhaosheng, Yu, Wenhui, Pan, Yuanyue, and Falanga, Maurizio

Subjects

*X-ray bursts, *X-ray binaries, *GAMMA ray bursts, *B stars, *ELECTRON temperature, *ACCRETION disks

Abstract

We report the detection of a long X-ray burst from the ultracompact binary 4U 1850–087. The type I X-ray burst was observed on MJD 60171.65 by the Monitor of All-sky X-ray Image and Neutron Star Interior Composition Explorer (NICER). We analyze the NICER data between MJD 60095.19 and 60177.43, which includes the observation covering parts of the long X-ray burst decay phase, i.e., 0.15–3.8 hr after the trigger. The persistent spectra are well described by a multicolor disk blackbody, with an inner temperature of ∼0.5 keV, a thermally Comptonized continuum, an asymptotic power-law photon index of Γ ∼ 2.2, and an electron temperature of kT e ∼ 20–30 keV. The mean persistent flux was around 3.8 × 10−10 erg cm−2 s−1, corresponding to a local mass accretion rate of ∼ 1 % m ̇ Edd . Part of the time-resolved burst spectra show a clear deviation from the blackbody model, which can be improved by considering the enhanced persistent emission due to the Poynting–Robertson drag or the reflected disk emission illuminated by the burst. From the burst flux during the cooling phase, we estimate the burst duration, τ ≈ 0.78 hr, the burst fluence, E b ≈ 4.1 × 1041 erg, and the ignition column depth, y ign ≈ 3.5 × 1010 g cm−2. These long X-ray burst parameters from 4U 1850–087 suggest a regime of unstable burning of a thick, pure helium layer slowly accreted from a helium donor star. Moreover, we identify 7 σ significant ∼1 keV emission lines in the burst spectra, which may originate from the surrounding accretion disk. [ABSTRACT FROM AUTHOR]

Published

2024

5. Boron Abundances in Early B Dwarfs of the Galactic Open Cluster NGC 3293.

Author

Proffitt, Charles R., Jin, Harim, Daflon, Simone, Lennon, Daniel J., Langer, Norbert, Cunha, Katia, and Monroe, Talawanda

Subjects

*MAIN sequence (Astronomy), *STAR clusters, *B stars, *STELLAR rotation, *BORON, *OPEN clusters of stars, *GLOBULAR clusters

Abstract

New boron abundances or upper limits have been determined for eight early B stars in the young Galactic open cluster NGC 3293, using UV spectra obtained by the Hubble Space Telescope Cosmic Origins Spectrograph. With previous observations, there are now 18 early B stars in this cluster with boron measurements. Six of the newly observed stars have projected rotational velocities greater than 200 km s−1, allowing new constraints on rotationally driven mixing in main-sequence stars. When comparing to synthetic model populations, we find that the majority of our sample stars agree well with the predicted trends of stronger boron depletion for larger rotation and for larger mass or luminosity. Based on those, a smaller than the canonical rotational mixing efficiency (f c ≈ 0.0165 versus the more standard value of 0.033) appears to be favored. In addition, the five mostly slowly rotating stars, when considered as a group, tend to show more boron depletion than expected from rotational mixing, and we speculate that most or all of these originate from binary mergers. [ABSTRACT FROM AUTHOR]

Published

2024

6. Implications on star formation rate indicators from H ii regions and diffuse ionized gas in the M101 Group.

Author

Watkins, A E, Mihos, J C, Harding, P, and Garner, R

Subjects

*STAR formation, *IONIZED gases, *STELLAR populations, *B stars, *GALAXY formation

Abstract

We examine the connection between diffuse ionized gas (DIG), H  ii regions, and field O and B stars in the nearby spiral M101 and its dwarf companion NGC 5474 using ultra-deep H α narrow-band imaging and archival GALEX UV imaging. We find a strong correlation between DIG H α surface brightness and the incident ionizing flux leaked from the nearby H  ii regions, which we reproduce well using simple cloudy simulations. While we also find a strong correlation between H α and co-spatial far-ultraviolet (FUV) surface brightness in DIG, the extinction-corrected integrated UV colours in these regions imply stellar populations too old to produce the necessary ionizing photon flux. Combined, this suggests that H  ii region leakage, not field OB stars, is the primary source of DIG in the M101 Group. Corroborating this interpretation, we find systematic disagreement between the H α- and FUV-derived star formation rates (SFRs) in the DIG, with SFRH α

Published

2024

7. A low-mass helium star progenitor model for the Type Ibn SN 2020nxt.

Author

Wang, Qinan, Goel, Anika, Dessart, Luc, Fox, Ori D, Shahbandeh, Melissa, Rest, Sofia, Rest, Armin, Groh, Jose H, Allan, Andrew, Fransson, Claes, Smith, Nathan, Hosseinzadeh, Griffin, Filippenko, Alexei V, Andrews, Jennifer, Bostroem, K Azalee, Brink, Thomas G, Brown, Peter, Burke, Jamison, Chevalier, Roger, and Clayton, Geoffrey C

Subjects

*LOW mass stars, *B stars, *ULTRAVIOLET spectra, *CIRCUMSTELLAR matter, *LIGHT curves

Abstract

A growing number of supernovae (SNe) are now known to exhibit evidence for significant interaction with a dense, pre-existing, circumstellar medium (CSM). SNe Ibn comprise one such class that can be characterized by both rapidly evolving light curves and persistent narrow He  i lines. The origin of such a dense CSM in these systems remains a pressing question, specifically concerning the progenitor system and mass-loss mechanism. In this paper, we present multiwavelength data of the Type Ibn SN 2020nxt, including HST /STIS ultraviolet spectra. We fit the data with recently updated CMFGEN models designed to handle configurations for SNe Ibn. The UV coverage yields strong constraints on the energetics and, when combined with the CMFGEN models, offer new insight on potential progenitor systems. We find the most successful model is a ≲4 M⊙ helium star that lost its |$\sim 1\, {\rm M}_\odot$| He-rich envelope in the years preceding core collapse. We also consider viable alternatives, such as a He white dwarf merger. Ultimately, we conclude at least some SNe Ibn do not arise from single, massive (>30 M⊙) Wolf–Rayet-like stars. [ABSTRACT FROM AUTHOR]

Published

2024

8. EC 19529−4430: SALT identifies the most carbon- and metal-poor extreme helium star.

Author

Jeffery, C S, Scott, L J A, Philip Monai, A, Miszalski, B, and Woolf, V M

Subjects

*B stars, *SOLAR surface, *GALACTIC halos, *STARS, *SALT, *STELLAR magnetic fields, *CHEMICAL elements

Abstract

EC 19529−4430 was identified as a helium-rich star in the Edinburgh–Cape (EC) Survey of faint-blue objects and subsequently resolved as a metal-poor extreme helium (EHe) star in the Southern African Large Telescope (SALT) survey of chemically peculiar hot subdwarfs. This paper presents a fine analysis of the SALT high-resolution spectrum. EC 19529−4430 has |$T_{\rm eff} = 20\, 700 \pm 250$|  K, |$\log g /{\rm cm\, s^{-2}} = 3.49\pm 0.03$|⁠ , and an overall metallicity some 1.3 dex below solar; surface hydrogen is |$\approx 0.5~{{\ \rm per\ cent}}$| by number. The surface CNO ratio 1:100:8 implies that the surface consists principally of CNO-processed helium and makes EC 19529−4430 the coolest known carbon-poor and nitrogen-rich EHe star. Metal-rich analogues include V652 Her and GALEX J184559.8−413827. Kinematically, its retrograde orbit indicates membership of the Galactic halo. No pulsations were detected in TESS photometry and there is no evidence for a binary companion. EC 19529−4430 most likely formed from the merging of two helium white dwarfs, which themselves formed as a binary system some 11 Gyr ago. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fundamental Properties of O and B Stars with Optical Interferometry.

Author

Gordon, Kathryn D., Gies, Douglas R., and Schaefer, Gail H.

Subjects

*B stars, *SUPERGIANT stars, *TEMPERATURE of stars, *ULTRAVIOLET spectrophotometry, *ANGULAR measurements

Abstract

We used interferometric observations made with the CHARA Array of 25 B-type stars and 6 O-type stars to obtain precise measurements of angular size, radius, and effective temperature to test stellar atmospheric models for massive stars. Our measured angular diameters range from 1.09 milli-arcseconds (mas) for β Tau down to 0.11 mas for 10 Lac, the smallest star yet resolved with the CHARA Array. The rotational oblateness of the rapidly rotating star ζ Oph is directly measured for the first time. We collected ultraviolet to infrared spectrophotometry for all sample stars and derived temperatures, angular diameters, and reddening estimates that best fit the spectra. There is generally good agreement between the observed and spectral fit angular diameters for the O and B stars, indicating that the fluxes predicted from model atmospheres are reliable. The derived and model temperatures for the O stars are also in fair agreement, however the sample size is small and several of the O stars results we consider to be preliminary. On the other hand, the temperatures derived from angular diameters and fluxes tend to be larger (by ≈ 4%) for the B stars than those from published results based on analysis of the line spectrum (Gordon et al. 2018, 2019). [ABSTRACT FROM AUTHOR]

Published

2024

10. A study of Be stars in the time domain – I. Spectral data and polarimetry.

Author

Castañón Esteban, Adrian, Steele, Iain A, and Jermak, Helen E

Subjects

*POLARIMETRY, *BREWSTER'S angle, *BINARY stars, *B stars, *VELOCITY

Abstract

We present the first part of a spectroscopic and polarimetric study on a sample of 58 Be stars that have been measured since 1998. The aim of the study is to understand the time-scales of disc variability, formation, and dissipation as a function of the properties (mass, luminosity, and rotational velocity) of the underlying B star. In this paper, we classified the sample based on the presence of emission or absorption of the Hα line, and the shape of the peak as single or double peak, as well as noting changes between emission and non-emission states. We find a probability of ∼0.75 per cent per year that an object in the sample will undergo such a change. We also present re-derived values of the projected rotational velocities for the sample. When we compare our polarization values with those from the literature, we find that most of the stars do not show a change in the value of the polarization angle; however, a small number show significant changes which could be attributed to either disc strength (optical depth) or geometry changes. Finally, we show how, by combining the (interstellar corrected) degree of polarization and the projected rotational velocity, we can construct an inclination angle-free parameter that includes the true equatorial velocity. Using this inclination angle-independent parameter, we show that the populations of single and double peak stars are indistinguishable, giving further evidence that Be star line profiles are essentially inclination angle driven. [ABSTRACT FROM AUTHOR]

Published

2024

11. Impacts of the Local arm on the local circular velocity inferred from the Gaia DR3 young stars in the Milky Way.

Author

Almannaei, Aisha S, Kawata, Daisuke, Baba, Junichi, Hunt, Jason A S, Seabroke, George, and Yan, Ziyang

Subjects

*STARS, *MILKY Way, *VELOCITY, *B stars, *DATA release

Abstract

A simple one-dimensional axisymmetric disc model is applied to the kinematics of O type and B type stars (OB stars) near the Sun obtained from Gaia Data Release 3 catalogue. The model determines the 'local centrifugal speed' V c(R 0) – defined as the circular velocity in the Galactocentric rest frame, where the star would move in a near-circular orbit if the potential is axisymmetric with the local potential of the Galaxy. We find that the V c(R 0) values and their gradient vary across the selected region of stars within the solar neighbourhood. By comparing with an N -body/hydrodynamic simulation of a Milky Way-like galaxy, we find that the kinematics of the young stars in the solar neighbourhood is affected by the Local arm, which makes it difficult to measure V c(R 0). However, from the resemblance between the observational data and the simulation, we suggest that the known rotational velocity gap between the Coma Bernices and Hyades-Pleiades moving groups could be driven by the co-rotation resonance of the Local arm, which can be used to infer the azimuthally averaged circular velocity. We find that V c(R) obtained from the D < 2 kpc sample is well matched with this gap at the position of the Local arm. Hence, we argue that our results from the D < 2 kpc sample, V c(R 0) = 234 ± 2 km s−1, are close to the azimuthally averaged circular velocity rather than the local centrifugal speed, which is influenced by the presence of the Local arm. [ABSTRACT FROM AUTHOR]

Published

2024

12. Spectroscopy of B and Be Stars in the Very Young Open Star Cluster IC 1805.

Author

Tarasov, A. E.

Subjects

*B stars, *OPEN clusters of stars, *TEMPERATURE of stars, *SPECTRAL lines, *X-ray crystallography, *SPECTROMETRY, *MOLECULAR spectra

Abstract

Based on moderate-resolution spectra in the range 4200–5200 Å, we have studied late O–early B stars in the very young open star cluster IC 1805. The temperatures of the stars under study have been derived by the differential method in which simple parameters were chosen for a number of spectral lines and were then compared with the analogous parameters from an extensive sample of O–B stars. Accurate estimates have been obtained for them from model atmospheres. Applying this method for the sample of objects under study has allowed the cluster age Myr and distance modulus to be determined with confidence. We have studied the spectroscopic variability of the emission spectrum for the sole Be star of early spectral type B MWC 50 that is a member of the cluster. We show that it is a classical Be star probably seen pole-on and has no long-term variability of the profiles typical for many classical Be stars. [ABSTRACT FROM AUTHOR]

Published

2024

13. A New Route to Massive Hot Subdwarfs: Common Envelope Ejection from Asymptotic Giant Branch Stars.

Author

Li, Zhenwei, Zhang, Yangyang, Chen, Hailiang, Ge, Hongwei, Jiang, Dengkai, Li, Jiangdan, Chen, Xuefei, and Han, Zhanwen

Subjects

*ASYMPTOTIC giant branch stars, *STELLAR evolution, *B stars, *RED giants

Abstract

The hot subdwarf O/B stars (sdO/Bs) are known as extreme horizontal branch stars, which is of great importance in stellar evolution theory. The sdO/Bs are generally thought to have a helium-burning core and a thin hydrogen envelope (M env < 0.02 M ⊙). In the canonical binary evolution scenario, sdO/Bs are considered to be the stripped cores of red giants. However, such a scenario cannot explain the recently discovered sdO/B binary SMSS J1920, where the strong Ca H and K lines in the spectrum are found. It suggests that this binary likely originated from the recent ejection of the common envelope (CE). In this work, we propose a new formation channel of massive sdO/Bs, namely, sdO/Bs produced from a CE ejection process with an asymptotic giant branch (AGB) star (hereafter the AGB CE channel). We constructed the evolutionary model of sdO/Bs and successfully explained most of the important observed parameters of the sdO/B star in SMSS J1920, including the evolutionary age, sdO/B mass, effective temperature, surface gravity, and surface helium abundance. The minimum sdO/B mass produced from the AGB CE channel is about 0.48 M ⊙. The evolutionary tracks in the log T eff – log g plane may explain a fraction of the observational samples with high log T eff and low log g . Considering the wind mass loss of sdO/Bs, the model could produce helium-rich hot subdwarfs with log (n He / n H) ≳ − 1 . [ABSTRACT FROM AUTHOR]

Published

2024

14. Ylva Götberg and Maria Drout.

Author

Natarajan, Priyamvada, Booth, Harry, Dickstein, Leslie, Ewe, Koh, Guzman, Chad De, Pillay, Tharin, and Shah, Simmone

Subjects

STELLAR evolution, B stars, STARS, ASTRONOMERS, ASTROPHYSICS

Abstract

Ylva Götberg and Maria Drout, two astronomers, have made significant progress in understanding the theory of stellar evolution. They have discovered 25 examples of hot helium stars with stripped hydrogen envelopes, a phenomenon that was previously not well understood. By combining detailed model predictions with observations from telescopes on the ground and in space, Götberg and Drout were able to detect these stars, shedding light on the number of core-collapse supernovae and neutron stars in the universe. This discovery has important implications for our understanding of astrophysics and the behavior of stars. [Extracted from the article]

Published

2024

15. Pisces VII/Triangulum III – M33's second dwarf satellite galaxy.

Author

Collins, Michelle L M, Karim, Noushin, Martinez-Delgado, David, Monelli, Matteo, Tollerud, Erik J, Donatiello, Giuseppe, Navabi, Mahdieh, Charles, Emily, and Boschin, Walter

Subjects

*RED giants, *B stars, *GALAXY clusters, *DWARF galaxies, *STELLAR populations, *GALAXIES

Abstract

Pisces VII/Triangulum III (Pisc VII) was discovered in the DESI Legacy Imaging Survey and was shown to be a Local Group dwarf galaxy with follow-up imaging from the 4-m Telescopio Nazionale Galileo. However, this imaging was unable to reach the horizontal branch of Pisc VII, preventing a precision distance measurement. The distance bound from the red giant branch population placed Pisc VII as either an isolated ultra-faint dwarf galaxy or the second known satellite galaxy of Triangulum (M33). Using deep imaging from Gemini GMOS-N, we have resolved the horizontal branch of Pisc VII, and measure a distance of |$D=916^{+65}_{-53}$| kpc, making Pisc VII a likely satellite of M33. We also remeasure its size and luminosity from this deeper data, finding |$r_{\rm half}=186^{+58}_{-32}$| pc, MV  = −6.0 ± 0.3, and |$L=2.2^{+0.7}_{-0.5}\times 10^4\, {\rm L}_\odot$|⁠. Given its position in the M33 halo, we argue that Pisc VII could support the theory that M33 is on its first infall to the Andromeda system. We also discuss the presence of blue plume and helium burning stars in the colour–magnitude diagram of Pisc VII that are consistent with ages of ∼1.5 Gyr. If these are truly members of the galaxy, it would transform our understanding of how reionization affects the faintest galaxies. Future deep imaging and dynamics could allow significant insight into both the stellar populations of Pisc VII and the evolution of M33. [ABSTRACT FROM AUTHOR]

Published

2024

16. Long-term monitoring of the Oe star VES 735: Ope! not so quiet after all.

Author

Marshall, Brandon and Kerton, C R

Subjects

*HIGH mass stars, *STELLAR evolution, *B stars, *STELLAR winds, *SUPERGIANT stars

Abstract

Only 3–4 per cent of Galactic O stars are observed to display the emission features representative of the OBe phenomenon, compared to Galactic B stars, which display these characteristics in 25–35 per cent of B0 and B1 stars. We present new observations of the high-mass O star, VES 735, which confirms its classification as one of these rare emission-line stars. These are its first recorded observations that display strong spectroscopic variations in nearly 30 yr of monitoring, with the H α profile exhibiting a 10-fold increase in emission compared to observations taken between 1996 and 2014 and having variations which show episodes of inflowing and outflowing material. These observations, coupled with photometric variations in the visible and infrared, show behaviour that is consistent with the mass reservoir effect for viscous decretion discs. We propose that in 2015 VES 735 began an approximately 3 yr event in which mass was being injected into the circumstellar environment followed by re-accretion towards the star. We also find evidence that the re-accretion may have been interrupted with another, smaller, mass-injection event based on observations in 2022 and 2023. Observational cadences ranging from hours to months show no evidence that VES 735 is part of a binary system, making it an ideal candidate for future observations to further investigate the evolution of high-mass stars and the OBe phenomenon as it pertains to their circumstellar environment. [ABSTRACT FROM AUTHOR]

Published

2024

17. He abundance in NGC 1850 A and B: Are we observing the early stage of the formation of multiple populations in a stellar cluster?

Author

Carini, R, Sollima, A, Brocato, E, and Biazzo, K

Subjects

*STELLAR populations, *STELLAR rotation, *LARGE magellanic cloud, *VERY large telescopes, *B stars, *GLOBULAR clusters

Abstract

We present the results for a sample of B stars in the Large Magellanic Cloud young double stellar cluster NGC 1850 A and NGC 1850 B, as observed with the integral-field spectrograph at the Very Large Telescope, the Multi Unit Spectroscopic Explorer (MUSE). We compare the observed equivalent widths (EWs) of four He lines (4922, 5015, 6678, and 7065 Å) with those determined from synthetic spectra computed with different He mass fractions (Y = 0.25, 0.27, 0.30, and 0.35) with the code synspec , which takes into account the non-local thermodynamic equilibrium effect. From this comparison, we determine the He mass fraction of the B stars, finding a distribution that is not homogeneous. The stars can be divided in three groups: He-weak (Y < 0.24) and He-normal (0.24 ≤ Y ≤ 0.26) stars, belonging to the main sequence of NGC 1850 A, and He-rich stars (0.33 ≤ Y ≤ 0.38), situated in the main sequence associated with NGC 1850 B. We analyse the stellar rotation as possibly being responsible for the anomalous features of the He lines in the He-rich stars. We provide a simple analysis of the differences between the observed EWs and those obtained from theoretical models with different rotation velocities (V sin i = 0 and 250 km s–1). The resolution of the MUSE spectra does not allow us to obtain a conclusive result; however, our analysis support the He-enhanced hypothesis. [ABSTRACT FROM AUTHOR]

Published

2024

18. The mass range of hot subdwarf B stars from MESA simulations.

Author

Arancibia-Rojas, Eduardo, Zorotovic, Monica, Vučković, Maja, Bobrick, Alexey, Vos, Joris, and Piraino-Cerda, Franco

Subjects

*B stars, *STELLAR evolution, *STARS, *GALACTIC evolution, *SUPERGIANT stars

Abstract

Hot subdwarf B (sdB) stars are helium core burning stars that have lost almost their entire hydrogen envelope due to binary interaction. Their assumed canonical mass of |${M_{\mathrm{sdB}}}\sim 0.47$|  M⊙ has recently been debated given a broad range found both from observations as well as from the simulations. Here, we revise and refine the mass range for sdBs derived two decades ago with the Eggleton code, using the stellar evolution code mesa , and discuss the effects of metallicity and the inclusion of core overshooting during the main sequence. We find an excellent agreement for low-mass progenitors, up to ∼2.0 M⊙. For stars more massive than ∼2.5 M⊙, we obtain a wider range of sdB masses compared to the simulations from the literature. Our mesa  models for the lower metallicity predict, on average, slightly more massive sdBs. Finally, we show the results for the sdB lifetime as a function of sdB mass and discuss the effect this might have in the comparison between simulations and observational samples. This study paves the way for reproducing the observed Galactic mass distribution of sdB binaries. [ABSTRACT FROM AUTHOR]

Published

2024

19. Period variability in the pulsating Extreme Helium stars V652 Her and BX Cir.

Author

Kilkenny, D, Worters, H L, and Baran, A S

Subjects

*B stars, *STELLAR oscillations, *STARS, *VARIABLE stars, *PULSATING stars, *CHEMICAL elements

Abstract

Eighteen new timings of maxima of the radially pulsating Extreme Helium star, V652 Her, obtained during 2010–2023 are reported, together with 26 new timings of the very similar star, BX Cir, during 2014–2023. New ephemerides are derived from baselines which are now substantially longer than previously published. Both ephemerides are thus refined and, in the case of BX Cir, we find for the first time evidence of a cubic term (the period change rate is decreasing). BX Cir data from the Transiting Exoplanet Survey Satellite (TESS) reveals a previously unreported frequency near 65 μHz (period ∼ 0.179 d) with amplitude ∼0.002 mag. [ABSTRACT FROM AUTHOR]

Published

2024

20. 3D hydrodynamics simulations of a 3 M⊙ core helium burning star.

Author

Blouin, Simon, Herwig, Falk, Mao, Huaqing, Denissenkov, Pavel, and Woodward, Paul R

Subjects

*B stars, *CONVECTIVE flow, *INTERNAL waves, *HYDRODYNAMICS, *GAS dynamics

Abstract

The inner structure of core helium burning (CHeB) stars remains uncertain due to the yet unknown nature of mixing at the boundary of their cores. Large convective cores beyond a bare Schwarzschild model are favoured both from theoretical arguments and from asteroseismological constraints. However, the exact nature of this extra mixing, and in particular the possible presence of semiconvective layers, is still debated. In this work, we approach this problem through a new avenue by performing the first full-sphere 3D hydrodynamics simulations of the interiors of CHeB stars. We use the ppmstar explicit gas dynamics code to simulate the inner 0.45 |$\, {\rm M}_{\odot }$| of a 3 M⊙ CHeB star. Simulations are performed using different Cartesian grid resolutions (7683, 11523, and 17283) and heating rates. We use two different initial states, one based on mesa s's predictive mixing scheme (which significantly extends the core beyond the Schwarzschild boundary) and one based on the convective premixing approach (which exhibits a semiconvective interface). The general behaviour of the flow in the convective core and in the stable envelope (where internal gravity waves are observed) is consistent with our recent simulations of core convection in massive main-sequence stars, and so are the various luminosity scaling relations. The semiconvective layers are dominated by strong internal gravity waves that do not produce measurable species mixing, but overshooting motions from the convective core gradually homogenize the semiconvective interface. This process can possibly completely erase the semiconvective layers, which would imply that CHeB stars do not harbour a semiconvection zone. [ABSTRACT FROM AUTHOR]

Published

2024

21. Population synthesis of Be X-ray binaries: metallicity dependence of total X-ray outputs.

Author

Liu, Boyuan, Sartorio, Nina S, Izzard, Robert G, and Fialkov, Anastasia

Subjects

*SMALL magellanic cloud, *STELLAR evolution, *REDSHIFT, *X-rays, *B stars, *STAR formation

Abstract

X-ray binaries (XRBs) are thought to regulate cosmic thermal and ionization histories during the Epoch of Reionization and Cosmic Dawn (z ∼ 5–30). Theoretical predictions of the X-ray emission from XRBs are important for modelling such early cosmic evolution. Nevertheless, the contribution from Be-XRBs, powered by accretion of compact objects from decretion discs around rapidly rotating O/B stars, has not been investigated systematically. Be-XRBs are the largest class of high-mass XRBs (HMXBs) identified in local observations and are expected to play even more important roles in metal-poor environments at high redshifts. In light of this, we build a physically motivated model for Be-XRBs based on recent hydrodynamic simulations and observations of decretion discs. Our model is able to reproduce the observed population of Be-XRBs in the Small Magellanic Cloud with appropriate initial conditions and binary stellar evolution parameters. We derive the X-ray output from Be-XRBs as a function of metallicity in the (absolute) metallicity range Z ∈ [10−4, 0.03] with a large suite of binary population synthesis (BPS) simulations. The simulated Be-XRBs can explain a non-negligible fraction (⁠|$\gtrsim 30{{\ \rm per\ cent}}$|⁠) of the total X-ray output from HMXBs observed in nearby galaxies for Z ∼ 0.0003–0.02. The X-ray luminosity per unit star formation rate from Be-XRBs in our fiducial model increases by a factor of ∼8 from Z  = 0.02 to Z  = 0.0003, which is similar to the trend seen in observations of all types of HMXBs. We conclude that Be-XRBs are potentially important X-ray sources that deserve greater attention in BPS of XRBs. [ABSTRACT FROM AUTHOR]

Published

2024

22. The distribution, kinematics, and luminosities of extreme helium stars as probes of their origin and evolution.

Author

Philip Monai, A, Martin, P, and Jeffery, C S

Subjects

*B stars, *WHITE dwarf stars, *SPECTRAL energy distribution, *LUMINOSITY, *STARS, *KINEMATICS

Abstract

Hydrogen-deficient stars include the cool R CrB variable (RCBs) and hydrogen-deficient carbon (HdCs) giants through extreme helium stars (EHes) to the very hot helium-rich subdwarfs (He-sdO and O(He) stars) and white dwarfs. With surfaces rich in helium, nitrogen, and carbon, their origins have been identified with the merger of two white dwarfs. Using Gaia to focus on the EHes, we aim to identify progenitor populations and test the evolution models. Gaia DR3 measurements and ground-based radial velocities have been used to compute Galactic orbits using galpy. Each orbit has been classified by population; EHe stars are found in all of the thin disc, thick disc, halo, and bulge, as are RCB, HdC, and He-sdO stars. Spectral energy distributions were constructed for all EHes, to provide angular diameters, and hence radii and luminosities. The EHes fall into two luminosity groups divided at |$L \approx 2500 \, {\rm L_{\odot }}$|⁠. This supports theory for the origin of EHes, and is the strongest confirmation so far in terms of luminosity. The lower luminosity EHes correspond well with the post-merger evolution of a double helium white dwarf binary. Likewise, the higher luminosity EHes match the post-merger evolution of a carbon/oxygen plus helium white dwarf binary. In terms of parent populations, current models predict that double white dwarf mergers should occur in all Galactic populations, but favour mergers arising from recent star formation (i.e. thin disc), whereas the statistics favour an older epoch (i.e. thick disc). [ABSTRACT FROM AUTHOR]

Published

2024

23. Inclination angles for Be stars determined using machine learning.

Author

Lailey, B D and Sigut, T A A

Subjects

*MACHINE learning, *STELLAR rotation, *STANDARD deviations, *B stars, *OPEN clusters of stars, *CHEMICAL elements

Abstract

We test the viability of training machine learning algorithms with synthetic |$\rm H\, \alpha$| line profiles to determine the inclination angles (the angle between the central B star's rotation axis and the observer's line of sight) of B emission (Be) stars from a single observed medium-resolution, moderate signal-to-noise ratio spectrum. The performances of three different machine learning algorithms were compared: neural networks tasked with regression, neural networks tasked with classification, and support vector regression. Of these three algorithms, neural networks tasked with regression consistently outperformed the other methods with a root mean squared error of 7.6° on an observational sample of 92 galactic Be stars with inclination angles known from direct |$\rm H\, \alpha$| profile fitting, from the spectroscopic signature of gravitational darkening, and, in a few cases, from interferometric observations that resolved the disc. The trained neural networks enable a quick and useful determination of the inclination angles of observed Be stars, which can be used to search for correlated spin axes in young open clusters or to extract an equatorial rotation velocity from a measurement of v sin  i. [ABSTRACT FROM AUTHOR]

Published

2024

24. Gaia uncovers difference in B and Be star binarity at small scales: evidence for mass transfer causing the Be phenomenon.

Author

Dodd, Jonathan M, Oudmaijer, René D, Radley, Isaac C, Vioque, Miguel, and Frost, Abigail J

Subjects

*B stars, *MASS transfer, *STELLAR populations, *ASTROMETRY, *STAR formation, *CHEMICAL elements

Abstract

Be stars make up almost 20 per cent of the B star population, and are rapidly rotating stars surrounded by a disc; however the origin of this rotation remains unclear. Mass transfer within close binaries provides the leading hypothesis, with previous detections of stripped companions to Be stars supporting this. Here, we exploit the exquisite astrometric precision of Gaia to carry out the largest to date comparative study into the binarity of matched samples of nearby B and Be stars from the Bright Star Catalogue. By utilizing new 'proper motion anomaly' values, derived from Gaia DR2 and DR3 astrometric data alongside previous values calculated using Hipparcos and Gaia data, and the Gaia -provided RUWE, we demonstrate that we can identify unresolved binaries down to separations of 0.02 arcsec. Using these measures, we find that the binary fractions of B and Be stars are similar between 0.04 and 10 arcsec, but the Be binary fraction is significantly lower than that of the B stars for separations below 0.04 arcsec. As the separation range of these 'missing' binaries is too large for mass transfer, and stripped companions are not retrieved by these measures, we suggest the companions migrate inwards via binary hardening within a triple system. This confirms statistically for the first time the hypothesis that binary interaction causes the Be phenomenon, with migration causing the dearth of Be binaries between 0.02 and 0.04 arcsec. Furthermore, we suggest that triplicity plays a vital role in this migration, and thus in the formation of Be stars as a whole. [ABSTRACT FROM AUTHOR]

Published

2024

25. Opacities of S-type Stars: The Singlet B 1 Π– X 1 Σ + , B 1 Π– A 1 △, and C 1 Σ + – X 1 Σ + Band Systems of ZrO.

Author

Bernath, Peter F., Bhusal, Manish, and Liévin, Jacques

Subjects

*B stars, *AB-initio calculations, *OPTICAL spectra, *STELLAR spectra, *MOLECULAR spectra, *OPACITY (Optics)

Abstract

The ZrO B 1Π– X 1Σ+, B 1Π– A 1Δ, and C 1Σ+– X 1Σ+ band systems are important opacity sources in the near-infrared and optical spectra of S-type stars. A total of 21 rovibronic bands with v ″ ≤ 7 and v ′ ≤ 5 were observed and fit for the B 1Π– X 1Σ+ transition, five bands for the 90ZrO B 1Π– A 1Δ transition and one band for the 90ZrO C 1Σ+– X 1Σ+ transition. All band systems were analyzed using high-temperature, high-resolution emission spectra collected at the National Solar Observatory (Kitt Peak). A modern spectroscopic analysis was performed using the PGOPHER program to provide updated spectroscopic constants. In general, we improve the accuracy of the line positions reported in the literature and slightly extend the vibrational analysis. Equilibrium molecular constants were then derived and combined with new ab initio calculations of transition dipole moment functions to produce line lists with line strengths. [ABSTRACT FROM AUTHOR]

Published

2024

26. An observed population of intermediate-mass helium stars that have been stripped in binaries.

Author

Drout, M. R., Götberg, Y., Ludwig, B. A., Groh, J. H., de Mink, S. E., OÕGrady, A. J. G., and Smith, N.

Subjects

*B stars, *WOLF-Rayet stars, *SUPERGIANT stars, *STELLAR mass, *OPTICAL spectroscopy

Abstract

The hydrogen-rich outer layers of massive stars can be removed by interactions with a binary companion. Theoretical models predict that this stripping produces a population of hot helium stars of ~2 to 8 solar masses (M☉), however, only one such system has been identified thus far. We used ultraviolet photometry to identify potential stripped helium stars then investigated 25 of them using optical spectroscopy. We identified stars with high temperatures (~60,000 to 100,000 kelvin), high surface gravities, and hydrogen-depleted surfaces; 16 stars also showed binary motion. These properties match expectations for stars with initial masses of 8 to 25 M☉ that were stripped by binary interaction. Their masses fall in the gap between subdwarf helium stars and Wolf-Rayet stars. We propose that these stars could be progenitors of stripped-envelope supernovae. [ABSTRACT FROM AUTHOR]

Published

2023

27. The Interstellar Ti II Distance Scale.

Author

Galazutdinov, G. A., Santander, T. A., Babina, E., and Krełowski, J.

Subjects

*STELLAR parallax, *B stars, *MEASUREMENT errors, *PARALLAX

Abstract

We measured the equivalent widths ( s) of interstellar Ti II absorption lines at 3383.759 for about 250 reddened objects and found a good correlation of the s with distances to the background stars, estimated using Gaia DR3 parallaxes. Hipparcos trigonometric parallaxes were used for very bright objects which were not observed by Gaia. The Ti II based distance estimation procedure is similar to the well known Ca II-method (Megier et al., 2005, 2009). However, there are at least 3 advantages of the Ti II method: in contrast to interstellar Ca II H and K lines, blending of Ti II with stellar lines is not an issue even for late B stars; Ti II is to a much less extent influenced by the saturation effect; only a single line must be measured, i.e. there is only a single measurement error to be taken into account. The relation of between Ti II and distance is given by simple equation , where is the distance in pc and is the equivalent width of the Ti II 3383.759 line in mÅ. [ABSTRACT FROM AUTHOR]

Published

2023

28. Optical and X-ray Variability of Cas Stars: HD 45995.

Author

Kholtygin, A. F., Yakunin, I. A., Burlak, M. A., and Ryspaeva, E. B.

Subjects

*STELLAR oscillations, *STELLAR rotation, *LIGHT curves, *B stars, *X-rays

Abstract

The paper is devoted to the analysis of the variability of the Cas-type star HD 45995 in both optical and X-ray ranges. The variability of the line profiles of HD 45995 has been detected both for long (350–380 days) and short (11–87 minutes) time ranges. Based on the photometric light curves of HD 45995 obtained with the TESS satellite, we refined the rotation period of the star at days. These light curves reveal components with periods of about 11 typical for non-radial pulsations of B stars and components with periods of about 4–14 days, the nature of which is still unknown. We must note, that the latter components may be of an instrumental character, for example, due to the satellite drift. The pattern of the photometric variability, according to the TESS data, changes significantly for different observation epochs in 2018/2019 and 2020/2021. In the X-ray light curves of HD 45995, the presence of superfast variations with a period of seconds is suspected. [ABSTRACT FROM AUTHOR]

Published

2023

29. Non-gravitational Mechanism of Comets' Ejection from the Oort Cloud Due to Cometary Outbursts.

Author

Belousov, D. V. and Pavlov, A. K.

Subjects

*COMETS, *SOLAR system, *COSMIC rays, *B stars, *ORBITS (Astronomy), *SURFACE temperature

Abstract

Cometary nuclei located in the Oort cloud accumulate high concentration of radicals in surface layers under cosmic ray irradiation at low temperatures. Recombination of radicals induced by an increase in the surface temperature of a comet by a close passing star, O/B stars, or nearby supernovae leads to the heating of the ice layer with the releasing of volatiles from the amorphous ice. When high gas pressure builds up beneath the cometary surface, dust and gas are ejected. The resulting jet of gas and dust can change the comet's orbit in the Oort cloud. The studied non-gravitational mechanism can effectively expel comets with a radius of ≤1 km from the Oort cloud into the inner part of the Solar system. The total effect of cometary outbursts on the stability of cometary orbits during the evolution of Solar system can result in a decrease in the number of long-period small-radius comets. [ABSTRACT FROM AUTHOR]

Published

2023

30. 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

31. ISOSCELES: Grid of stellar atmosphere and hydrodynamic models of massive stars.

Author

Araya, Ignacio, Machuca, Natalia, Curé, Michel, and Arcos, Catalina

Subjects

*STELLAR atmospheres, *STELLAR winds, *STELLAR mass, *B stars, *ATMOSPHERIC models, *STELLAR oscillations

Abstract

Spectroscopy can decode the radiation from stars in an appropriate way and derive many properties of different stellar objects. In this work we seek to derive simultaneously stellar and wind parameters of massive stars. To model the data we use the radiative transport code Fastwind with the hydrodynamic solutions derived using our stationary code Hydwind as input, instead of the β-law. Then, ISOSCELES, our grid of stellar atmosphere and hydrodynamic models of massive stars, is used to derive the physical properties of the observed spectra through spectral line fittings. This quantitative spectroscopic analysis provide an estimation about the line–force parameters, whose theoretical calculations are complex. In addition, we expect to confirm that the hydrodynamic δ-slow solutions, describe quite reliable the radiation line-driven winds of A and late B supergiant stars and, at the same time, explain disagreements between observational data and theoretical models for the Wind–Momentum Luminosity Relationship (WLR). [ABSTRACT FROM AUTHOR]

Published

2024

32. Revisiting the properties of GW190814 and its formation history.

Author

Lyu, F, Yuan, L, Wu, D H, Guo, W H, Wang, Y Z, Yi, S X, Tang, Q W, Hu, R-C, Zhu, J-P, Shu, X W, Qin, Y, and Liang, E W

Subjects

*BINARY black holes, *B stars, *BLACK holes, *MASS loss (Astrophysics), *TYPE I supernovae

Abstract

GW190814 was reported during LIGO's and Virgo's third observing run with the most asymmetric component masses (an ∼23 M⊙ black hole and an ∼2.6 M⊙ compact object). Under the assumption that this event is a binary black hole (BBH) merger formed through the isolated binary evolution channel, we reanalyse the publicly released data of GW190814 with the modified astrophysical priors on the effective spin χeff, and further explore its formation history using detailed binary modelling. We show that GW190814 is likely to have been formed through the classical common envelope channel. Our findings show that the properties inferred using the modified astrophysical priors are consistent with those inferred by the uniform priors. With the newly inferred properties of GW190814, we perform detailed binary evolution of the immediate progenitor of the BBH (namely a close binary system composed of a BH and a helium star) in a large parameter space, taking into account mass-loss, internal differential rotation, supernova kicks, and tidal interactions between the helium star and the BH companion. Our findings show that GW190814-like events could be formed in limited initial conditions just after the common envelope phase: an ∼23 M⊙ BH and a helium star of M ZamsHe ∼ 8.5 M⊙ at solar metallicity (∼ 7.5 M⊙ at 10 per cent solar metallicity) with an initial orbital period at around 1.0 d. Additionally, the inferred low spin of the secondary indicates that the required metallicity for reproducing GW190814-like events should not be too low (e.g. Z ≳ 0.1 Z⊙). [ABSTRACT FROM AUTHOR]

Published

2023

33. Pulsation properties in hot B subdwarf star TIC 293165262 from TESS photometry.

Author

Ma, Xiao-Yu, Zong, Weikai, Fu, Jian-Ning, Xing, Keyu, Hu, Xueying, and Zhang, Jiayi

Subjects

*B stars, *PHOTOMETRY, *PULSATING stars, *ASTRONOMICAL photometry

Abstract

Pulsation frequencies offer a unique opportunity to probe the interior of hot B subdwarf (sdB) stars. In this study, we present the results by analysing the pulsation properties of the sdB star TIC 293165262 using the TESS 21-sector photometry in Cycles 1, 3 and 5. Fifteen significant frequencies were detected within the frequency range of <500 μ Hz, all of which were identified as low-frequency g-mode oscillations. By analysing the two resolved incomplete multiplets with spacings of ∼ 0.056 and ∼ 0.099 μ Hz, we derived a rotational period of 99.8 ± 1.8 days, indicating that TIC 293165262 is a relatively slow rotating single sdB star. The period spacings of ℓ = 1 and ℓ = 2 sequences were determined as 264 and 154 s, respectively, which resulted in a mode discriminant of seven ℓ = 1 modes, three ℓ = 2 modes and two satisfied the both. During the five observational segments, the frequency and amplitude variations of six significant pulsations were clearly observed, revealing nonlinear weak mode interactions. These linear and nonlinear properties of pulsations in TIC 293165262 highlighted the continuous provision of high-quality photometry for pulsating sdB stars by the TESS mission. [ABSTRACT FROM AUTHOR]

Published

2023

34. An emerging and enigmatic spectral class of isolated DAe white dwarfs.

Author

Elms, Abbigail K, Tremblay, Pier-Emmanuel, Gänsicke, Boris T, Swan, Andrew, Melis, Carl, Bédard, Antoine, Manser, Christopher J, Munday, James, Hermes, J J, Dennihy, Erik, Nitta, Atsuko, and Zuckerman, Ben

Subjects

*WHITE dwarf stars, *MAGNETIC flux density, *HR diagrams, *B stars, *NOVAE (Astronomy)

Abstract

Two recently discovered white dwarfs, WD J041246.84 + 754942.26 and WD J165335.21 − 100116.33, exhibit Hα and Hβ Balmer line emission similar to stars in the emerging DAHe class, yet intriguingly have not been found to have detectable magnetic fields. These white dwarfs are assigned the spectral type DAe. We present detailed follow-up of the two known DAe stars using new time-domain spectroscopic observations and analysis of the latest photometric time-series data from TESS and ZTF. We measure the upper magnetic field strength limit of both stars as B < 0.05 MG. The DAe white dwarfs exhibit photometric and spectroscopic variability, where in the case of WD J041246.84 + 754942.26 the strength of the Hα and Hβ emission cores varies in antiphase with its photometric variability over the spin period, which is the same phase relationship seen in DAHe stars. The DAe white dwarfs closely cluster in one region of the Gaia Hertzsprung–Russell diagram together with the DAHe stars. We discuss current theories on non-magnetic and magnetic mechanisms which could explain the characteristics observed in DAe white dwarfs, but additional data are required to unambiguously determine the origin of these stars. [ABSTRACT FROM AUTHOR]

Published

2023

35. A helium nova in the Large Magellanic Cloud – the faint supersoft X-ray source [HP99]159.

Author

Kato, Mariko, Hachisu, Izumi, and Saio, Hideyuki

Subjects

*LARGE magellanic cloud, *TYPE I supernovae, *HELIUM, *NOVAE (Astronomy), *B stars, *WHITE dwarf stars

Abstract

We propose a helium nova model for the Large Magellanic Cloud (LMC) supersoft X-ray source (SSS) [HP99]159. This object has long been detected as a faint and persistent SSS for about 30 yr, and recently been interpreted to be a source of steady helium-shell burning, because no hydrogen lines are observed. We find that the object can also be interpreted as in a decaying phase of a helium nova. The helium nova is slowly decaying toward the quiescent phase, during which the observed temperature, luminosity, and SSS lifetime (≳30 yr) are consistent with a massive white dwarf model of ∼1.2 M⊙. If it is the case, this is the second discovery of a helium nova outburst after V445 Pup in our Galaxy, and also the first identified helium nova in the LMC. We also discuss the nature of the companion helium star in relation to Type Ia supernova progenitors. [ABSTRACT FROM AUTHOR]

Published

2023

36. Path covers of bubble-sort star graphs.

Author

Cheng, Dongqin

Subjects

*BIPARTITE graphs, *DISTRIBUTED computing, *PARALLEL programming, *FAULT tolerance (Engineering), *COMPUTER systems, *B stars, *GRAPH algorithms

Abstract

The distributed computing or parallel computing system uses an interconnection network as a topology structure to connect a large number of processors. The disjoint paths of interconnection networks are related to parallel computing and the fault tolerance. l-path cover of graph G = (V (G) , E (G)) consists of (internally) disjoint paths P k s ( 1 ≤ k ≤ l ), where ∪ k = 1 l V (P k) = V (G) . The bubble-sort star graph is bipartite and has favorable reliability and fault tolerance which are critical for multiprocessor systems. We focus on the one-to-one 1-path cover, one-to-one (2 n - 3) -path cover, and many-to-many 2-path cover of the bubble-sort star graph B S n . More specifically, let V (B S n) = V e ∪ V o with V e ∩ V o = ∅ , for { u , x } ⊂ V e and { v , y } ⊂ V o , we prove that (1) B S n contains a 1-path cover, i.e., Hamiltonian path P uv , (2) B S n contains one-to-one (2 n - 3) -path cover P k s ( 1 ≤ k ≤ 2 n - 3 ) between u and v, and (3) B S n contains many-to-many 2-path cover P uv and P xy , where n ≥ 3 . Since B S n is (2 n - 3) -regular graph, the one-to-one (2 n - 3) -path cover is the maximal one-to-one path cover. [ABSTRACT FROM AUTHOR]

Published

2023

37. MWC 656 is unlikely to contain a black hole.

Author

Janssens, S., Shenar, T., Degenaar, N., Bodensteiner, J., Sana, H., Audenaert, J., and Frost, A. J.

Subjects

*BLACK holes, *B stars, *EARLY stars, *STELLAR mass

Abstract

Contact. MWC 656 was reported to be the first known Be star with a black-hole (BH) companion on a 60 d period. The mass of the proposed BH companion is estimated to be between 4 and 7 M⊙. This estimate is based on radial velocity (RV) measurements derived from the Fe IIλ4583 emission line of the Be star disc and from the He IIλ4686 emission line, assumed to be formed in a disc around the putative BH. Aims. Using new high-resolution spectroscopic data, we investigate whether MWC 656 truly contains a BH. Methods. We used the cross-correlation method to calculate the RVs of both the Be star and the He IIλ4686 emission line to derive a new orbital solution. We also used a spectral disentangling method to look for the spectral signature of a companion. Results. We derived an orbital period of 59.028 ± 0.011 d and a mass ratio of q = MHe II/MBe = 0.12 ± 0.03, much lower than the previously reported value of q = 0.41 ± 0.07. By adopting a mass for the Be star of MBe = 7.8 ± 2.0 M⊙, the mass of the companion is 0.94 ± 0.34 M⊙. For the upper limit of MBe = 16 M⊙ and q = 0.15, the mass of the companion is 2.4 M⊙. Performing the disentangling on mock spectra shows that the spectral signature of a non-degenerate stellar companion with such a low mass cannot be retrieved using our data. Conclusions. Our measurements do not support the presence of a BH companion in MWC 656. Rather, the derived upper limit on the mass of the companion indicates that it is either a neutron star, a white dwarf, or a hot helium star. Far-UV data will aid in rejecting or confirming a hot helium-star companion. [ABSTRACT FROM AUTHOR]

Published

2023

38. Mode coupling coefficients between the convective core and radiative envelope of γ Doradus and slowly pulsating B stars.

Author

Aerts, C. and Mathis, S.

Subjects

*B stars, *PULSATING stars, *STELLAR rotation, *SUPERGIANT stars, *LIGHT curves, *STELLAR oscillations

Abstract

Context. Signatures of coupling between an inertial mode in the convective core and a gravito-inertial mode in the envelope have been found in four-year Kepler light curves of 16 rapidly rotating γ Doradus (γ Dor) stars. This makes it possible to obtain a measurement of the rotation frequency in their convective core. Despite their similar internal structure and available data, inertial modes have not yet been reported for slowly pulsating B (SPB) stars. Aims. We aim to provide a numerical counterpart of the recently published theoretical expressions for the mode-coupling coefficients, ε and ε̃ ε ∼ $ \tilde{\varepsilon} $. These coefficients represent the two cases of a continuous and a discontinuous Brunt-Väisälä frequency profile at the core-envelope interface, respectively. We consider γ Dor and SPB stars to shed light on the difference between these two classes of intermediate-mass gravito-inertial mode pulsators in terms of core and envelope mode coupling. Methods. We used asteroseismic forward models of two samples consisting of 26 SPB stars and 37 γ Dor stars to infer their numerical values of ε and ε̃ ε ∼ $ \tilde{\varepsilon} $. For both samples, we also computed: the linear correlation coefficients between ε or ε̃ ε ∼ $ \tilde{\varepsilon} $ and the near-core rotation frequency, the chemical gradient, the evolutionary stage, the convective core masses and radii, and the Schönberg-Chandrasekhar limiting mass representing the maximum mass of an inert helium core at central hydrogen exhaustion that can still withstand the pressure of the overlaying envelope. Results. The asteroseismically inferred values of ε and ε̃ ε ∼ $ \tilde{\varepsilon} $ for the two samples are between 0.0 and 0.34. While ε is most strongly correlated with the near-core rotation frequency for γ Dor stars, the fractional radius of the convective core instead provides the tightest correlation for SPB stars. We find ε to decrease mildly as the stars evolve. For the SPB stars, ε and ε̃ ε ∼ $ \tilde{\varepsilon} $ have similar moderate correlations with respect to the core properties. For the γ Dor stars, ε̃ ε ∼ $ \tilde{\varepsilon} $ reveals systematically lower and often no correlation to the core properties; their ε is mainly determined by the near-core rotation frequency. The Schönberg-Chandrasekar limit is already surpassed by the more massive SPB stars, while none of the γ Dor stars have reached it yet. Conclusions. Our asteroseismic results for the mode coupling support the theoretical interpretation and reveal that young, fast-rotating γ Dor stars are most suitable for undergoing couplings between inertial modes in the rotating convective core and gravito-inertial modes in the radiative envelope. The phenomenon has been found in 2.4% of such pulsators with detected period spacing patterns, whereas it has not been seen in any of the SPB stars so far. [ABSTRACT FROM AUTHOR]

Published

2023

39. SHOTGLAS: II. MUSE spectroscopy of blue horizontal branch stars in the core of ω Centauri and NGC6752.

Author

Latour, M., Hämmerich, S., Dorsch, M., Heber, U., Husser, T.-O., Kamman, S., Dreizler, S., and Brinchmann, J.

Subjects

*GLOBULAR clusters, *EARLY stars, *B stars, *STELLAR atmospheres, *SPECTRAL energy distribution, *STAR clusters

Abstract

Aims. We want to study the population of blue horizontal branch (HB) stars in the centres of globular clusters (GC) for the first time by exploiting the unique combination of MUSE spectroscopy and HST photometry. In this work, we characterize their properties in the GCs ω Cen and NGC 6752. Methods. We use dedicated model atmospheres and grids of synthetic spectra computed using a hybrid LTE/NLTE modeling approach to fit the MUSE spectra of HB stars hotter than 8000 K in both clusters. The spectral fits provide estimates of the effective temperature (Teff), surface gravity (log ɡ), and helium abundance of the stars. The model grids are further used to fit the HST magnitudes of the stars, that is, their spectral energy distributions (SEDs). From the SED fits, we derive the average reddening, radius, luminosity, and mass of the stars in our sample. Results. The atmospheric and stellar properties that we derive for the stars in our sample are in good agreement with theoretical expectations. In particular, the stars cooler than ~15 000 K closely follow the theoretical predictions on radius, log ɡ, and luminosity for helium-normal (Y = 0.25) models. In ω Cen, we show that the majority of these cooler HB stars cannot originate from a helium-enriched population with Y > 0.35. The properties of the hotter stars (radii and luminosities) are still in reasonable agreement with theoretical expectations, but the individual measurements show a large scatter. For these hot stars, we find a mismatch between the effective temperatures indicated from the MUSE spectral fits and the photometric fits, with the latter returning Teff lower by ~3000 K. We use three different diagnostics, namely the position of the G-jump and changes in metallicity and helium abundances, to place the onset of diffusion in the stellar atmospheres at Teff between 11 000 and 11 500 K. Our sample includes two stars known as photometric variables; we confirm one to be a bona fide extreme HB object but the other is a blue straggler star. Finally, unlike what has been reported in the literature, we do not find significant differences between the properties (e.g., log ɡ, radius, and luminosity) of the stars in the two clusters. Conclusions. We show that our analysis method – combining MUSE spectra and HST photometry of HB stars in GCs – is a powerful tool for characterising their stellar properties. With the availability of MUSE and HST observations of additional GCs, we have a unique opportunity to combine homogeneous spectroscopic and photometric data to study and compare the properties of blue HB stars in different GCs. [ABSTRACT FROM AUTHOR]

Published

2023

40. Clumping and X-rays in cooler B supergiant stars.

Author

Bernini-Peron, M., Marcolino, W. L. F., Sander, A. A. C., Bouret, J.-C., Ramachandran, V., Saling, J., Schneider, F. R. N., Oskinova, L. M., and Najarro, F.

Subjects

*B stars, *SUPERGIANT stars, *X-rays, *TEMPERATURE of stars, *ATMOSPHERIC models, *EARLY stars, *MASS loss (Astrophysics), *STELLAR evolution

Abstract

Context. B supergiants (BSGs) are evolved stars with effective temperatures between ~10 to ~30 kK. Knowing the properties of these objects is important to understand massive star evolution. Located on the cool end of the line-driven wind regime, the study of their atmospheres can help us to understand the physics of their winds and phenomena such as the bi-stability jump. Aims. Despite being well-studied stars, key UV features of their spectra have so far not been reproduced by atmosphere models for spectral types later than B1. In this study, we aim to remedy this situation by performing quantitative spectral analyzes that account for the effects of X-rays and clumping in the wind. In addition, we also briefly investigate the evolutionary status of our sample stars based on the stellar parameters we obtained. Methods. We determined photospheric and wind parameters via quantitative spectroscopy using atmosphere models computed with CMFGEN and PoWR. These models were compared to high-resolution UV and optical spectra of four BSGs: HD206165, HD198478, HD53138, and HD164353. We further employed GENEC and MESA tracks to study the evolutionary status of our sample. Results. When including both clumping and X-rays, we obtained a good agreement between synthetic and observed spectra for our sample stars. For the first time, we reproduced key wind lines in the UV, where previous studies were unsuccessful. To model the UV spectra, we require a moderately clumped wind (fV∞ ≳ 0.5). We also infer a relative X-ray luminosity of about 10−7.5 to 10−8, which is lower than the typical ratio of 10−7. Moreover, we find a possible mismatch between evolutionary mass predictions and the derived spectroscopic masses, which deserves deeper investigation as this might relate to the mass-discrepancy problem present in other types of OB stars. Conclusions. Our results provide direct spectroscopic evidence that both X-rays and clumping need to be taken into account to describe the winds of cool BSGs. However, their winds seem to be much less structured than in earlier OB-type stars. Our findings are in line with observational X-rays and clumping constraints as well as recent hydrodynamical simulations. The evolutionary status of BSGs seems to be diverse with some objects potentially being post-red supergiants or merger products. The obtained wind parameters provide evidence for a moderate increase of the mass-loss rate around the bi-stability jump. [ABSTRACT FROM AUTHOR]

Published

2023

41. A massive helium star with a sufficiently strong magnetic field to form a magnetar.

Author

Shenar, Tomer, Wade, Gregg A., Marchant, Pablo, Bagnulo, Stefano, Bodensteiner, Julia, Bowman, Dominic M., Gilkis, Avishai, Langer, Norbert, Nicolas-Chené, André, Oskinova, Lidia, Van Reeth, Timothy, Sana, Hugues, St-Louis, Nicole, Soares de Oliveira, Alexandre, Todt, Helge, and Toonen, Silvia

Subjects

*B stars, *SUPERGIANT stars, *STELLAR evolution, *EARLY stars, *SOLAR magnetic fields, *MAGNETARS

Abstract

Magnetars are highly magnetized neutron stars, the formation mechanism of which is unknown. Hot helium-rich stars with spectra dominated by emission lines are known as Wolf-Rayet stars. We observed the binary system HD 45166 using spectropolarimetry and reanalyzed its orbit using archival data. We found that the system contains a Wolf-Rayet star with a mass of 2 solar masses and a magnetic field of 43 kilogauss. Stellar evolution calculations indicate that this component will explode as a supernova, and that its magnetic field is strong enough for the supernova to leave a magnetar remnant. We propose that the magnetized Wolf-Rayet star formed by the merger of two lower-mass helium stars. [ABSTRACT FROM AUTHOR]

Published

2023

42. Delivery of icy planetesimals to inner planets in the Proxima Centauri planetary system.

Author

Ipatov, Sergei I.

Subjects

*INNER planets, *ALPHA Centauri, *PLANETESIMALS, *PLANETARY systems, *B stars, *WATER masses

Abstract

The estimates of the delivery of icy planetesimals from the feeding zone of Proxima Centauri c (with mass equal to 7mE, mE is the mass of the Earth) to inner planets b and d were made. They included the studies of the total mass of planetesimals in the feeding zone of planet c and the probabilities of collisions of such planetesimals with inner planets. This total mass could be about 10–15mE. It was estimated based on studies of the ratio of the mass of planetesimals ejected into hyperbolic orbits to the mass of planetesimals collided with forming planet c. At integration of the motion of planetesimals, the gravitational influence of planets c and b and the star was taken into account. In most series of calculations, planetesimals collided with planets were excluded from integrations. Based on estimates of the mass of planetesimals ejected into hyperbolic orbits, it was concluded that during the growth of the mass of planet c the semi‐major axis of its orbit could decrease by at least a factor of 1.5. Depending on possible gravitational scattering due to mutual encounters of planetesimals, the total mass of material delivered by planetesimals from the feeding zone of planet c to planet b was estimated to be between 0.002mE and 0.015mE. Probably, the amount of water delivered to Proxima Centauri b exceeded the mass of water in Earth's oceans. The amount of material delivered to planet d could be a little less than that delivered to planet b. [ABSTRACT FROM AUTHOR]

Published

2023

43. The Last R& B Star.

Author

JACKSON, DANIELLE AMIR

Subjects

*B stars

Abstract

The article explores Usher's resurgence in the music industry, highlighting his impact on R&B and his ongoing relevance. It discusses his My Way Residency in Las Vegas, where he performs hits and engages with the audience, and delves into the expectations and challenges of maintaining a successful music career in the changing music landscape.

Published

2023

44. Beckett Basketball: CARD PRICE GUIDE.

Subjects

BASKETBALL cards, PRICES, PRICE marks, B stars

Abstract

Get real-time pricing for over 4 million listings at www.beckett.com/price-guides HELP WANTED! Please forward hobby resume to: careers@beckett.com. [Extracted from the article]

Published

2023

45. Beckett Basketball CARD PRICE GUIDE.

Subjects

BASKETBALL cards, PRICES, B stars, PRICE marks

Published

2023

46. A spectral classification system for hydrogen-deficient carbon stars.

Author

Crawford, Courtney L, Tisserand, Patrick, Clayton, Geoffrey C, Soon, Jamie, Bessell, Mike, Wood, Peter, García-Hernández, D A, Ruiter, Ashley J, and Seitenzahl, Ivo R

Subjects

*DIMENSIONAL reduction algorithms, *B stars, *CARBON, *HELIUM, *CLASSIFICATION algorithms, *CLASSIFICATION

Abstract

Stellar spectral classification has been highly useful in the study of stars. While there is a currently accepted spectral classification system for carbon stars, the subset of hydrogen-deficient carbon (HdC) stars has not been well described by such a system, due predominantly to their rarity and their variability. Here we present the first system for the classification of HdCs based on their spectra, which is made wholly on their observable appearance. We use a combination of dimensionality reduction and clustering algorithms with human classification to create such a system with eight total classes corresponding to temperature, and an additional second axis corresponding to the carbon molecular band strength. We classify over half of the known sample of HdC stars using this, and roughly calibrate the temperatures of each class using their colours. Additionally, we express trends in the occurrence of certain spectral peculiarities such as the presence of hydrogen and lithium lines. We also present three previously unpublished spectra, report the discovery of two new Galactic dustless HdC stars, and additionally discuss one especially unique star that appears to border between the hottest HdCs and the coolest extreme helium stars. [ABSTRACT FROM AUTHOR]

Published

2023

47. Multiple Stellar Populations at Less Evolved Stages. III. A Possible Helium Spread in NGC 2210.

Author

Li, Chengyuan, 李, 程远, Ji, Xin, 纪, 鑫, Wang, Long, 王, 龙, Wang, Yue, 王, 悦, Tang, Baitian, 汤, 柏添, Milone, Antonino P., Yang, Yujiao, 杨, 玉姣, Baumgardt, Holger, Jiang, Dengkai, and 姜, 登凯

Subjects

*GLOBULAR clusters, *STELLAR populations, *LARGE magellanic cloud, *HELIUM, *B stars, *STAR clusters

Abstract

Helium variations are common features of globular clusters (GCs) with multiple stellar populations. All the formation scenarios predict that secondary population stars are enhanced in helium, but the exact helium content depends on the polluters. Therefore, searching for helium variations in a star cluster is a straightforward method to understand whether it hosts multiple populations or not and to constrain the formation scenario. Although this topic has been well explored for Galactic GCs, GCs beyond the Milky Way are challenging to study because of their large distances. This work studies the helium distribution of GK-type main-sequence (MS) dwarfs in an old (∼12.5 Gyr) GC in the Large Magellanic Cloud, NGC 2210, using the deep photometry observed by the Hubble Space Telescope. We compare the observed morphology of the MS with that of synthetic populations with different helium distributions. We confirm that NGC 2210 dwarfs have a helium spread, with an internal dispersion of δ Y ∼ 0.06–0.07. The fraction of helium-enriched stars depends on the δ Y distribution. A continuous δ Y distribution would indicate that more than half of MS stars are helium enriched (∼55%). If the δ Y distribution is discrete (bimodal), a fraction of ∼30% enriched stars is able to explain the observed morphology of the MS. We also find that the He-enriched population stars are more centrally concentrated than He-normal stars. [ABSTRACT FROM AUTHOR]

Published

2023

48. Identification of a Helium Donor Star in NGC 247 ULX-1.

Author

Zhou, Changxing, Feng, Hua, and Bian, Fuyan

Subjects

*B stars, *VERY large telescopes, *ACCRETION disks

Abstract

With Very Large Telescope Multi Unit Spectroscopic Explorer (MUSE) observations, we detected highly variable helium emission lines from the optical counterpart of the supersoft ultraluminous X-ray source (ULX) NGC 247 ULX-1. No Balmer lines can be seen in the source spectrum. This is the first evidence for the presence of a helium donor star in ULXs, consistent with a prediction that helium donor stars may be common in ULXs. The helium lines with an FWHM of about 200 km s−1 are likely produced on the outer accretion disk. Their strong variation implies that the central X-ray source can be significantly obscured to the outer disk. Also, a ring or a double-ring structure is revealed in the MUSE image. It is unknown whether or not it is related to the progenitor of the ULX binary. [ABSTRACT FROM AUTHOR]

Published

2023

49. Merging binary black holes formed through double-core evolution.

Author

Qin, Y., Hu, R.-C., Meynet, G., Wang, Y. Z., Zhu, J.-P., Song, H. F., Shu, X. W., and Wu, S. C.

Subjects

*STELLAR structure, *BINARY black holes, *STELLAR evolution, *STELLAR mass, *SUPERGIANT stars, *B stars, *BLACK holes

Abstract

Context. To date, various formation channels of merging events have been heavily explored with the detection of nearly 100 double black hole (BH) merger events reported by the LIGO-Virgo-KAGRA (LVK) Collaboration. In this paper, we systematically investigate an alternative formation scenario: binary BHs (BBHs) formed through double helium stars (hereafter, "double-core evolution channel"). In this scenario, two helium stars (He-rich stars) could be the outcome of the classical isolated binary evolution scenario with and without the common envelope (CE) phase (i.e., CE channel and stable mass transfer channel) or, alternatively, of massive close binaries evolving chemically homogeneously (i.e., CHE channel). Aims. We study the properties (i.e., the chirp masses and the effective spins) of BBHs formed through the double-core evolution and investigate the impact of different efficiencies of angular momentum transport within massive He-rich stars on double-core evolution. Methods. We performed detailed stellar structure and binary evolution calculations that take into account internal rotation and mass loss of He-rich stars as well as tidal interactions in binaries. We systematically studied the parameter space of initial binary He-rich stars, including the initial mass and metallicity of He-rich stars as well as initial orbital periods. Apart from direct core collapse with mass and angular momentum conserved, we also follow the framework in Batta & Ramirez-Ruiz (2019, ArXiv e-prints [arXiv:1904.04835]) to estimate the mass and spin of the resulting BHs. Results. We show that the radii of massive He-rich stars decrease as a function of time, which comes mainly from mass loss and mixing in high metallicity and from mixing in low metallicity. For double He-rich stars with equal masses in binaries, we find that tides start to be at work on the zero age helium main sequence (i.e., the time when a He-rich star starts to burn helium in the core, which is analogous to zero age main sequence for core hydrogen burning) for initial orbital periods not longer than 1.0 day, depending on the initial metallicities. In addition to the stellar mass-loss rate and tidal interactions in binaries, we find that the role of the angular momentum transport efficiency in determining the resulting BH spins becomes stronger when considering BH progenitors originated from a higher metal-metallicity environment. We highlight that the double-core evolution scenario does not always produce fast-spinning BBHs and compare the properties of the BBHs reported from the LVK with our modeling. Conclusions. After detailed binary calculations of double-core evolution, we have confirmed that the spin of the BH is not only determined by the interplay of the binary's different initial conditions (metallicity, mass, and orbital period) but is also dependent on the angular momentum transport efficiency within its progenitor. We predict that with the sensitivity improvements to the LVK's next observing run (O4), the sample of merging BBHs will contain more sources with positive but moderate (even high) χeff and part of the events will likely show to have been formed through the double-core evolution channel. [ABSTRACT FROM AUTHOR]

Published

2023

50. Stripped-envelope stars in different metallicity environments: II. Type I supernovae and compact remnants.

Author

Aguilera-Dena, David R., Müller, Bernhard, Antoniadis, John, Langer, Norbert, Dessart, Luc, Vigna-Gómez, Alejandro, and Yoon, Sung-Chul

Subjects

*TYPE I supernovae, *SUPERNOVA remnants, *B stars, *BLACK holes, *X-ray binaries, *WOLF-Rayet stars, *STELLAR winds

Abstract

Stripped-envelope stars can be observed as Wolf-Rayet (WR) stars or as less luminous hydrogen-poor stars with low mass-loss rates and transparent winds. Both types are potential progenitors of Type I core-collapse supernovae (SNe). We used grids of core-collapse models obtained from single helium stars at different metallicities to study the effects of metallicity on the transients and remnants these stars produce. We characterised the surface and core properties of our core-collapse models and investigated their 'explodability' using three criteria. In the cases where explosions are predicted, we estimated the ejecta mass, explosion energy, nickel mass, and neutron star (NS) mass. Otherwise, we predicted the mass of the resulting black hole (BH). We constructed a simplified population model and find that the properties of SNe and compact objects depend strongly on metallicity. The ejecta masses and explosion energies for Type Ic SNe are best reproduced by models with Z = 0.04 that exhibit strong winds during core helium burning. This implies that either their mass-loss rates are underestimated or that Type Ic SN progenitors experience mass loss through other mechanisms before exploding. The distributions of ejecta masses, explosion energies, and nickel mass for Type Ib SNe are not well reproduced by progenitor models with WR mass loss, but are better reproduced if we assume no mass loss in progenitors with luminosities below the minimum WR star luminosity. We find that Type Ic SNe become more common as metallicity increases, and that the vast majority of progenitors of Type Ib SNe must be transparent-wind stripped-envelope stars. We find that several models with pre-collapse CO masses of up to ∼30 M⊙ may form ∼3 M⊙ BHs in fallback SNe. This may have important consequences for our understanding of SNe, binary BH and NS systems, X-ray binary systems, and gravitational wave transients. [ABSTRACT FROM AUTHOR]

Published

2023