Your search keyword '"STELLAR parallax"' showing total 798 results

1. Gravitational waves from r-mode oscillations of stochastically accreting neutron stars.

Author

Dong, Wenhao and Melatos, Andrew

Subjects

*STELLAR rotation, *GRAVITATIONAL waves, *STELLAR parallax, *NEUTRON stars, *BAROTROPIC equation, *STELLAR oscillations

Abstract

r -mode oscillations in rotating neutron stars are a source of continuous gravitational radiation. We investigate the excitation of r -modes by the mechanical impact on the neutron star surface of stochastically accreted clumps of matter, assuming that the Chandrasekhar–Friedman–Schutz instability is not triggered. The star is idealized as a slowly rotating, unmagnetized, one-component fluid with a barotropic equation of state in Newtonian gravity. It is found that the r -mode amplitude depends weakly on the equation of state but sensitively on the rotation frequency |$\nu _{\rm s}$|⁠. The gravitational wave strain implicitly depends on the equation of state through the damping time-scale. The root-mean-square strain is |$h_{\rm rms} \approx 10^{-35} (\nu _{\rm s}/ 10\, {\rm Hz})^{2} (R_*/10\, {\rm km})^2 (\Delta t_{\rm acc}/1\, {\rm yr})^{1/2} (f_{\rm acc}/1\, {\rm kHz})^{-1/2} (\dot{M}/10^{-8}\text{M}_{\odot } \, \text{yr}^{-1}) (v/0.4c) (d/1\, {\rm kpc})^{-1}$|⁠ , which is comparable to the strain from g -, p -, and f -modes excited by stochastic accretion, where |$R_*$| is the radius of the star, |$\Delta t_{\rm acc}$| is the uninterrupted duration of an accretion episode, |$f_{\rm acc}$| is the mean clump impact frequency, |$\dot{M}$| is the accretion rate, v is the impact speed, and d is the distance of the star from the Earth. An observational test is proposed, based on the temporal autocorrelation function of the gravitational wave signal, to discern whether the Chandrasekhar–Friedman–Schutz instability switches on and coexists with impact-excited r -modes before or during a gravitational wave observation. [ABSTRACT FROM AUTHOR]

Published

2025

2. Work at the Lick Observatory and Improvements in its Equipment.

Author

CHANT, C. A.

Subjects

*ULTRAVIOLET spectra, *STELLAR parallax, *RADIAL velocity of stars, *PARABOLIC reflectors, *SOLAR spectra, *ECLIPSES, *TOTAL solar eclipses

Published

2025

3. The impact on astrometry by solar-wind effect in pulsar timing.

Author

Liu, K, Parthasarathy, A, Keith, M, Tiburzi, C, Susarla, S C, Antoniadis, J, Chalumeau, A, Chen, S, Cognard, I, Golden, A, Grießmeier, J -M, Guillemot, L, Janssen, G H, Keane, E F, Kramer, M, McKee, J W, Mickaliger, M B, Theureau, G, and Wang, J

Subjects

*STELLAR parallax, *ASTROMETRY, *WIND measurement, *PULSARS, *DATA release, *SOLAR wind

Abstract

Astrometry of pulsars, particularly their distances, serves as a critical input for various astrophysical experiments using pulsars. Pulsar timing is a primary approach for determining a pulsar's position, parallax, and distance. In this paper, we explore the influence of the solar wind on astrometric measurements obtained through pulsar timing, focusing on its potential to affect the accuracy of these parameters. Using both theoretical calculation and mock-data simulations, we demonstrate a significant correlation between the pulsar position, annual parallax, and the solar-wind density parameters. This correlation strongly depends on the pulsar's ecliptic latitude. We show that fixing solar-wind density to an arbitrary value in the timing analysis can introduce significant bias in the estimated pulsar position and parallax, and its significance is highly dependent on the ecliptic latitude of the pulsar and the timing precision of the data. For pulsars with favourable ecliptic latitude and timing precision, the astrometric and solar-wind parameters can be measured jointly with other timing parameters using single-frequency data. The parameter correlation can be mitigated by using multifrequency data, which also significantly improves the measurement precision of these parameters; this is particularly important for pulsars at a medium or high ecliptic latitude. Additionally, for a selection of pulsars we reprocess their European Pulsar Timing Array Data Release 2 data to include modelling of solar-wind effect in the timing analysis. This delivers significant measurements of both parallax and solar-wind density, the latter of which are consistent with those obtained at low-frequency band. In the future, combining pulsar timing data at gigahertz and lower frequencies will probably deliver the most robust and precise measurements of astrometry and solar wind properties in pulsar timing. [ABSTRACT FROM AUTHOR]

Published

2025

4. Star Identification Algorithm Based on Dynamic Distance Ratio Matching.

Author

Dai, Ya, Shi, Chenguang, Ben, Liyan, Zhu, Hua, Zhang, Rui, Wu, Shufan, Shan, Sixiang, Xu, Yu, and Zhou, Wang

Subjects

*STELLAR rotation, *STELLAR parallax, *STARS, *FOCAL length, *IMAGE processing

Abstract

A star tracker is a widely used celestial sensor in astronomical navigation systems, which calculates the spacecraft's high-precision attitude by observing stars in space to obtain several star vectors. Existing star identification algorithms typically require the selection of a specific anchor star (e.g., the nearest neighbor star), using the line connecting the target star and the anchor star as the rotational reference axis to achieve rotation invariance in the star identification algorithm. However, this approach makes the entire identification algorithm overly dependent on the anchor star, resulting in insufficient identification accuracy in cases of excessive positional noise or a high number of false stars. In this paper, we adopt the angles between any neighboring stars and the distances ratio between neighboring stars and the observed star as the initial matching criteria. We then calculate the matching with each navigation star using the accumulated angle in the counterclockwise direction based on this criterion. The navigation star with the highest matching is identified. Unlike other identification algorithms that require selecting the nearest neighbor star which can be easily affected by interference as the rotational reference axis, our method effectively achieves rotation invariance in star identification by leveraging angle information. Therefore, it exhibits better tolerance to positional noise, magnitude noise, and false stars, particularly demonstrating higher robustness against focal length variations. [ABSTRACT FROM AUTHOR]

Published

2025

5. Analysis of the Gaia Data Release 3 parallax bias in the Galactic plane.

Author

Ding, Ye, Liao, Shilong, Wu, Qiqi, Qi, Zhaoxiang, and Tang, Zhenghong

Subjects

*STELLAR parallax, *MODEL airplanes, *DATA release, *ASTROMETRY, *DATA analysis, *PARALLAX

Abstract

Context. Systematic errors are inevitable in Gaia published astrometric data. A global recipe has been proposed to correct for the GEDR3 parallax zero-point offset, but this does not take the Galactic plane into consideration. The applicability of their correction model to the Galactic plane remains uncertain. Aims. We attempt to carry out an independent investigation into the sample dependence of the proposed correction, and its applicability to the Galactic plane. Methods. We collected various samples, including quasars, binaries, and sources with parallaxes from other surveys or methods, to validate the proposed correction, especially in the Galactic plane. Results. We conclude that the proposed correction exhibits sample dependence, and does not apply effectively to the Galactic plane. We present a new parallax bias correction for application to the Galactic plane, offering improvements over the previous correction. The correction difference between L21 and this work can be as high as 10 µas within certain ranges of magnitude and colour. This work provides an additional recipe for users of Gaia parallaxes, especially for sources located near the Galactic plane. [ABSTRACT FROM AUTHOR]

Published

2024

6. Distance and stellar parameter estimations of solar-like stars from the LAMOST spectroscopic survey.

Author

Shen, Yue-Yue and Luo, A-Li

Subjects

*CONVOLUTIONAL neural networks, *STELLAR parallax, *STARS, *MILKY Way, *PARAMETER estimation

Abstract

Context. The Gaia mission has opened up a new era for the precise astrometry of stars, thus revolutionizing our understanding of the Milky Way. However, beyond a few kiloparseconds from the Sun, parallax measurements become less reliable, and even within 2 kpc, there still exist stars with large uncertainties. Aims. Our aim was to determine the distance and stellar parameters of 521 424 solar-like stars from LAMOST DR9; these stars lacked precise distance measurements (uncertainties higher than 20% or even without any distance estimations) when checked with Gaia. Methods. We proposed a convolutional neural network (CNN) model to predict the absolute magnitudes, colors, and stellar parameters (Teff, log ɡ, and [Fe/H]) directly from low-resolution spectra. For spectra with signal-to-noise ratios at ɡ band (S/Ng) greater than 10, the model achieves a precision of 85 K for Teff, 0.07 dex for log ɡ, 0.06 dex for [Fe/H], 0.25 mag for MG, and 0.03 mag for (BP – RP)0. The estimated distances have a median fractional error of 4% with a standard deviation of 8%. Results. We applied the trained CNN model to 521 424 solar-like stars to derive the distance and stellar parameters. Compared with other distance estimation studies and spectroscopic surveys, the results show good consistency. Additionally, we investigated the metallicity gradients of the Milky Way from a subsample, and find a radial gradient ranging from −0.05 < Δ[Fe/H]/ΔR < 0.0 dex kpc−1 and a vertical gradient ranging from −0.26 < Δ[Fe/H]/ΔZ < −0.07 dex kpc−1. Conclusions. We conclude that our method is effective in estimating distances and stellar parameters for solar-like stars with limited astrometric data. Our measurements are reliable for Galactic structure studies and hopefully will be useful for exoplanet researches. [ABSTRACT FROM AUTHOR]

Published

2024

7. The red giant branch tip in the SDSS, PS1, JWST, NGRST, and Euclid photometric systems: Calibration in optical passbands using Gaia DR3 synthetic photometry.

Author

Bellazzini, M. and Pascale, R.

Subjects

*LARGE magellanic cloud, *SMALL magellanic cloud, *STELLAR parallax, *RED giants, *INTERSTELLAR reddening

Abstract

We used synthetic photometry from Gaia DR3 BP and RP spectra for a large selected sample of stars in the Large Magellanic Cloud (LMC) and Small Magellanic Cloud (SMC) to derive the magnitude of the red giant branch (RGB) tip for these two galaxies in several passbands across a range of widely used optical photometric systems, including those of space missions that have not yet started their operations. The RGB tip is estimated by fitting a well motivated model to the RGB luminosity function (LF) within a fully Bayesian framework, allowing for a proper representation of the uncertainties of all the involved parameters and their correlations. By adopting the best available distance and interstellar extinction estimates, we provide a calibration of the RGB tip as a standard candle for the following passbands: Johnson-Kron-Cousins I (mainly used for validation purposes), Hubble Space Telescope F814W, Sloan Digital Sky Survey i and z, PanSTARRS 1 y, James Webb Space Telescope F090W, Nancy Grace Roman Space Telescope Z087, and EuclidIE, with an accuracy within a few per cent, depending on the case. We used theoretical models to explore the trend of the absolute magnitude of the tip as a function of colour in the different passbands (beyond the range spanned by the LMC and SMC), as well as its dependency on age. These calibrations can be very helpful to obtain state-of-the-art RGB tip distance estimates to stellar systems in a very large range of distances directly from data in the natural photometric system of these surveys and/or missions, without recurring to photometric transformations. We have made the photometric catalogues publicly available for calibrations in additional passbands or for different approaches in the estimate of the tip, as well as for stellar populations and stellar astrophysics studies that may take advantage of large and homogeneous datasets of stars with magnitudes in 22 different passbands. [ABSTRACT FROM AUTHOR]

Published

2024

8. Comparison of the Physical Trace of Global Luminosity Emission at Multiwavelength and Star Formation Rates of Luminous Infrared Galaxies Using Extragalactic Distance Scale Techniques.

Author

Shaker, Farah Z. and M. N., Al Najm

Subjects

*EXTRAGALACTIC distances, *STAR formation, *STELLAR parallax, *DATABASES, *GALAXIES

Abstract

This paper aims to study the rate of star formation (SFR) in luminous infrared galaxies at different wavelengths using distance measurement techniques (dl, dm) and to know which methods are the most accurate to determine the rate of star formation as we present through this research the results of the statistical analysis (descriptive statistics) for a sample of luminous infrared galaxies. The data used in this research were collected from the NASA Extragalactic Database (NED) and HYPERLEDA, then used to calculate the star formation rate and indicate the accuracy of the distance methods used (dl, dm). Two methods were tested on Hα, OII, FIR, radio continuum at 1.4 GHz, FUV, NUV, and total (FUV + FIR). The results showed that the dl measurement method has the most accuracy in calculating SFR as it depends on the redshift where the relationship between them is direct. while the other distance method (dm) depends on absolute blue magnitude (MB), it was somewhat less accurate, but the two methods are helpful for this type of calculation. [ABSTRACT FROM AUTHOR]

Published

2024

9. The Illusion Trade: Causes of Its Prevalence and the Associated Legal Implications.

Author

Saleh, Ilham Jihad

Subjects

STELLAR parallax, CONSUMER protection, PRICES, SOCIAL action, ACTIONS & defenses (Law)

Abstract

Copyright of Journal of Islamic Entrepreneurship / Majallatu Riyadati Al-aamali Al-islamiati is the property of International Islamic Marketing Association and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

10. Discovery of double stars by Giovanni Battista Hodierna in 1654.

Author

González-Payo, J and Caballero, J A

Subjects

*HISTORY of astronomy, *BINARY stars, *STELLAR parallax, *ANGULAR distance, *ASTRONOMERS

Abstract

It has been generally accepted that the originators of the double star astronomy were Christian Mayer and William Herschel. We recovered the memory of the poorly known Italian astronomer Giovanni Battista Hodierna, who published the first catalogue of stellar binaries over a century before Mayer and Herschel. We analysed the fourth section of 1654 G. B. Hodierna's book ' De systemate orbis cometici deque admirandis coeli characteribus '. There, Hodierna listed a dozen pairs of stars whose identification with modern star names had been lost for centuries. To identify the pairs, we used Hodierna's Latin descriptions of location in constellations for all primary stars, ecliptic coordinates and angular separations to companions for some, and the Washington Double Star, Hipparcos , and Gaia catalogues. We were able to identify the twelve primaries and eleven multiple systems with companions, of which nine were double and two were triple. Besides, with up-to-date data, we confirmed that four systems are physically bound: Atlas and Pleione, |$\alpha ^{1,2}$| Lib, |$\nu ^{1,2}$| Dra, and |$\theta ^{1}$| Ori A, C, and D. The other seven pairs are alignments of very bright stars at different distances. [ABSTRACT FROM AUTHOR]

Published

2024

11. Most frequent value analysis of distance measurements to M87.

Author

Zhang, Jiang, Li, Lingdou, Su, Han, Chen, Yandong, and Shi, Weibin

Subjects

*STELLAR parallax, *CONFIDENCE intervals, *ACQUISITION of data, *PHYSICAL cosmology, *STATISTICS, *GAUSSIAN distribution

Abstract

We reanalyse the recent compilation of distance measurements to M87 by collecting the data from published literature. Different from the traditional statistical methods, based on the principle of minimum information loss, we use a robust most frequent value (MFV) procedure to estimate the distance to M87, irrespective of the Gaussian or non-Gaussian distributions. The MFV-based robust estimate for the M87 distance modulus is given by |$31.09^{+0.04}_{-0.03}$| (statistical) |$^{+0.05}_{-0.07}$| (systematic) mag corresponding to a 68.27 per cent confidence interval, whereas the result of combining the two uncertainties in quadrature is |$31.09^{+0.06}_{-0.08}$|  mag. We also construct the error distributions of M87 distance moduli values according to the weighted mean, median, and MFV, which is non-Gaussian. This demonstrates that the MFV method offers a more accurate and robust estimate of the distance to M87 compared to methods that depend on the unfulfilled assumption of Gaussianity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Testing the asteroseismic estimates of stellar radii with surface brightness-colour relations and Gaia DR3 parallaxes: Red giants and red clump stars.

Author

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

Subjects

*STELLAR parallax, *STELLAR evolution, *SUPERGIANT stars, *ASTEROSEISMOLOGY, *PARALLAX, *RED giants

Abstract

Aims. We compared stellar radii derived from asteroseismic scaling relations with those estimated using two independent surface brightness-colour relations (SBCRs) combined with Gaia DR3 parallaxes. Methods. We cross-matched asteroseismic and astrometric data for over 6400 red giant branch (RGB) and red clump (RC) stars from the APO-K2 catalogue with the TESS Input Catalogue v8.2 to obtain precise V band magnitudes and E(B − V) colour excesses. We then adopted two different SBCRs from the literature to derive stellar radius estimates, denoted as Ra and Rb, respectively. We analysed the ratio of these SBCR-derived radii to the asteroseismic radius estimates, R, provided in the APO-K2 catalogue. Results. Both SBCRs exhibited good agreement with asteroseismic radius estimates. On average, Ra was overestimated by 1.2% with respect to R, while Rb was underestimated by 2.5%. For stars larger than 20 R⊙, SBCR radii are systematically lower than asteroseismic ones. The dispersion in the radius ratio was similar for the two methods (around 10%). The agreement with asteroseismic radii shows a strong dependence on the parallax. The dispersion is halved for stars with a parallax greater than 2.5 mas. In this subsample, Rb showed perfect agreement with R, while Ra remained slightly overestimated, by 3%. A trend with [Fe/H] was found at a level of 4% to 6% per dex. Additionally, a clear trend with asteroseismic mass is found. For stars less massive than about 0.95 M⊙, SBCR radii were significantly higher than asteroseismic ones, by about 6%. This overestimation correlated with the presence of extended helium cores in these stars' structures relative to their envelopes. Furthermore, radius ratios showed a dichotomous behaviour at higher masses, mainly due to the presence of several RC stars with SBCR radii significantly lower with respect to asteroseismology. This behaviour originates from a different response of asteroseismic scaling relations and SBCR to [α/Fe] abundance ratios for massive stars, both in RGB and RC phases, which is reported here for the first time. [ABSTRACT FROM AUTHOR]

Published

2024

13. Cepheid Metallicity in the Leavitt Law (C-MetaLL) survey: VI. Radial abundance gradients of 29 chemical species in the Milky Way disc.

Author

Trentin, E., Catanzaro, G., Ripepi, V., Alonso-Santiago, J., Molinaro, R., Storm, J., De Somma, G., Marconi, M., Bhardwaj, A., Gatto, M., Musella, I., and Testa, V.

Subjects

*STELLAR parallax, *EXTRAGALACTIC distances, *STARS, *VARIABLE stars, *HUBBLE constant

Abstract

Context. Classical Cepheids (DCEPs) are crucial for calibrating the extragalactic distance ladder, ultimately enabling the determination of the Hubble constant through the period-luminosity (PL) and period-Wesenheit (PW) relations that they exhibit. Hence, it is vital to understand how the PL and PW relations depend on metallicity. This is the purpose of the C-MetaLL survey, within which this work is situated. The DCEPs are also very important tracers of the young populations placed along the Galactic disc. Aims. We aim to enlarge the sample of DCEPs with accurate abundances from high-resolution spectroscopy. In particular, our goal is to extend the range of measured metallicities towards the metal-poor regime to better cover the parameter space. To this end, we observed objects in a wide range of Galactocentric radii, allowing us to study in detail the abundance gradients present in the Galactic disc. Methods. We present the results of the analysis of 331 spectra obtained for 180 individual DCEPs with a variety of high-resolution spectrographs. For each target, we derived accurate atmospheric parameters, radial velocities, and abundances for up to 29 different species. The iron abundances range between 0.5 and −1 dex with a rather homogeneous distribution in metallicity. Results. The sample presented in this paper was complemented with that already published in the context of the C-MetaLL survey, resulting in a total of 292 pulsators whose spectra have been analysed in a homogeneous way. These data were used to study the abundance gradients of the Galactic disc in a range of Galactocentric radii (RGC) spanning the range of 5–20 kpc. Conclusions. For most of the elements, we have found a clear negative gradient, with a slope of −0.064 ± 0.003 dex kpc−1 for [Fe/H] case. Through a qualitative fit with the Galactic spiral arms, we show how our farthest targets (RGC > 10 kpc) trace both the Outer and Outer Scutum-Centaurus arms. The homogeneity of the sample will be of pivotal importance for the study of the metallicity dependence of the DCEP PL relations. [ABSTRACT FROM AUTHOR]

Published

2024

14. Retrieving stellar parameters and dynamics of AGB stars with Gaia parallax measurements and CO5BOLD RHD simulations.

Author

Béguin, E., Chiavassa, A., Ahmad, A., Freytag, B., and Uttenthaler, S.

Subjects

*CONVECTION (Astrophysics), *STELLAR parallax, *STELLAR oscillations, *STELLAR atmospheres, *ASYMPTOTIC giant branch stars

Abstract

Context. The complex dynamics of asymptotic giant branch (AGB) stars and the resulting stellar winds have a significant impact on the measurements of stellar parameters and amplify their uncertainties. Three-dimensional (3D) radiative hydrodynamic (RHD) simulations of convection suggest that convection-related structures at the surface of AGB star affect the photocentre displacement and the parallax uncertainty measured by Gaia. Aims. We explore the impact of the convection on the photocentre variability and aim to establish analytical laws between the photo-centre displacement and stellar parameters to retrieve such parameters from the parallax uncertainty. Methods. We used a selection of 31 RHD simulations with CO5BOLD and the post-processing radiative transfer code OPTIM3D to compute intensity maps in the Gaia G band [320–1050 nm]. From these maps, we calculated the photocentre position and temporal fluctuations. We then compared the synthetic standard deviation to the parallax uncertainty of a sample of 53 Mira stars observed with Gaia. Results. The simulations show a displacement of the photocentre across the surface ranging from 4 to 13% of the corresponding stellar radius, in agreement with previous studies. We provide an analytical law relating the pulsation period of the simulations and the photocentre displacement as well as the pulsation period and stellar parameters. By combining these laws, we retrieve the surface gravity, the effective temperature, and the radius for the stars in our sample. Conclusions. Our analysis highlights an original procedure to retrieve stellar parameters by using both state-of-the-art 3D numerical simulations of AGB stellar convection and parallax observations of AGB stars. This will help us refine our understanding of these giants. [ABSTRACT FROM AUTHOR]

Published

2024

15. Nonparametric Bayesian reconstruction of Galactic magnetic fields using information field theory: The inclusion of line-of-sight information in ultrahigh-energy cosmic-ray backtracing.

Author

Tsouros, Alexandros, Bendre, Abhijit B., Edenhofer, Gordian, Enßlin, Torsten, Frank, Philipp, Mastorakis, Michalis, and Pavlidou, Vasiliki

Subjects

*STELLAR parallax, *MAGNETIC fields, *BAYESIAN field theory, *INFORMATION theory, *INFERENTIAL statistics

Abstract

Context. Ultrahigh-energy cosmic rays (UHECRs) are charged particles with energies surpassing 1018 eV. Their sources remain elusive because they are obscured by deflections caused by the Galactic magnetic field (GMF). This challenge is further complicated by our limited understanding of the 3D structure of the GMF because current GMF observations primarily consist of quantities that are integrated along the line of sight (LOS). Nevertheless, data from upcoming stellar polarization surveys along with Gaia stellar parallax data are expected to yield local GMF measurements. Aims. This study is the second entry in our exploration of a Bayesian inference approach to the local GMF that uses synthetic local GMF observations that emulate forthcoming local GMF measurements, and attempts to use them to reconstruct its 3D structure. The ultimate aim is to trace back observed UHECRs and thereby update our knowledge about their possible origin. Methods. In this proof-of-concept work, we assumed as ground truth a magnetic field produced by a dynamo simulation of the Galactic ISM. We employed methods of Bayesian statistical inference in order to sample the posterior distribution of the GMF within part of the Galaxy. By assuming a known rigidity and arrival direction of an UHECR, we traced its trajectory back through various GMF configurations drawn from the posterior distribution. Our objective was to rigorously evaluate the performance of our algorithm in scenarios that closely mirror the setting of expected future applications. In pursuit of this, we conditioned the posterior to synthetically integrated LOS measurements of the GMF, in addition to synthetic local plane of sky-component measurements. Results. Our results demonstrate that for all locations of the observed arrival direction on the plane of sky, our algorithm is able to substantially update our knowledge on the original arrival direction of UHECRs with a rigidity of E/Z = 5 × 1019 eV, even without any LOS information. When the integrated data are included in the inference, the regions of the celestial sphere in which the maximum error occurs are greatly reduced. The maximum error is diminished by a factor of about 3 even in these regions in the specific setting we studied. Additionally, we are able to identify the regions in which the largest error is expected to occur. [ABSTRACT FROM AUTHOR]

Published

2024

16. Infrared surface brightness technique applied to RR Lyrae stars from the solar neighborhood.

Author

Zgirski, Bartłomiej, Gieren, Wolfgang, Pietrzyński, Grzegorz, Górski, Marek, Wielgórski, Piotr, Storm, Jesper, Bras, Garance, Kervella, Pierre, Nardetto, Nicolas, Hajdu, Gergely, Chini, Rolf, and Haas, Martin

Subjects

*RR Lyrae stars, *STELLAR oscillations, *STELLAR parallax, *ROOT-mean-squares, *DATA release

Abstract

Context. The Baade-Wesselink (BW) method, also known as the pulsation parallax method, allows us to estimate distances to individual pulsating stars. Accurate geometric parallaxes obtained by the Gaia mission serve us in the calibration of the method and in the determination of its precision. This method also provides a way of determining mean radii of pulsating stars. Aims. The main aim of this work is to determine the scatter and possible dependence of p-factors of RR Lyrae stars on their pulsation periods. The secondary objective is to determine the mean radius-period relations for these stars. Methods. Our calibrations for RR Lyrae stars are based on photometric data gathered at the Cerro Murphy Observatory and parallaxes from the Data Release 3 of the Gaia space mission. We obtained spectroscopic data specifically for this project using high-resolution spectrographs. We used the infrared surface brightness (IRSB) version of the method that relies on a surface brightness-color relation that is dependent on the (V − K) color. It allows us to estimate stellar angular diameters, while tracing variations of the stellar radius using measurements of the stellar radial velocity obtained from spectroscopy. We present results based on four different empirical surface brightness-color relations, with three relations for dwarfs and subgiants and one for classical Cepheids. Results. We present our calibration of projection factors and determination of the mean radii for nine Galactic RR Lyrae stars. We obtained a spread of p-factors of around 0.07–0.08 for our sample of RR Lyrae stars from the solar neighborhood. However, depending on a given SBCR, we also found relations between the p-factor and the pulsation period for RRab stars with a root mean square (rms) scatter around the relation of around 0.05, but with relatively large uncertainty on the relation parameters. We also present relations between the mean radius and period for RR Lyrae pulsating in the fundamental mode with an rms scatter around the relation of 0.012 R⊙. We observe a clear offset between p-factors obtained using the IRSB technique (with a mean p value between 1.39 and 1.45) and values inferred using the SPIPS tool. This confirms that different implementations of the BW method are sensitive to various components of the p-factor. On the other hand, we obtain a similar scatter for p, as observed in a previous study based on the SPIPS tool. Our period-radius relations are in a good agreement with both the inference based on SPIPS and theoretical predictions. [ABSTRACT FROM AUTHOR]

Published

2024

17. JWST's PEARLS: 119 multiply imaged galaxies behind MACS0416, lensing properties of caustic crossing galaxies, and the relation between halo mass and number of globular clusters at z = 0.4.

Author

Diego, Jose M., Adams, Nathan J., Willner, Steven P., Harvey, Tom, Broadhurst, Tom, Cohen, Seth H., Jansen, Rolf A., Summers, Jake, Windhorst, Rogier A., D'Silva, Jordan C. J., Koekemoer, Anton M., Coe, Dan, Conselice, Christopher J., Driver, Simon P., Frye, Brenda, Grogin, Norman A., Marshall, Madeline A., Nonino, Mario, Ortiz III, Rafael, and Pirzkal, Nor

Subjects

*GALAXY clusters, *COSMOLOGICAL distances, *STELLAR parallax, *N-body simulations (Astronomy), *GRAVITATIONAL lenses, *GLOBULAR clusters

Abstract

We present a new lens model for the ɀ = 0.396 galaxy cluster MACS J0416.1 –2403 based on a previously known set of 77 spectroscop-ically confirmed, multiply imaged galaxies plus an additional set of 42 candidate multiply imaged galaxies from past HST and new JWST data. The new galaxies lack spectroscopic redshifts but have geometric and/or photometric redshift estimates that are presented here. The new model predicts magnifications and time delays for all multiple images. The full set of constraints totals 343, constituting the largest sample of multiple images lensed by a single cluster to date. Caustic-crossing galaxies lensed by this cluster are especially interesting. Some of these galaxies show transient events, most of which are interpreted as micro-lensing of stars at cosmological distances. These caustic-crossing arcs are expected to show similar events in future, deeper JWST observations. We provide time delay and magnification models for all these arcs. The time delays and the magnifications for different arcs are generally anti-correlated. In the major sub-halos of the cluster, the dark-matter mass from our lens model correlates well with the observed number of globular clusters, as expected from N-body simulations. This confirms earlier results, derived at lower redshifts, which suggest that globular clusters can be used as powerful mass proxies for the halo masses when lensing constraints are scarce or not available. [ABSTRACT FROM AUTHOR]

Published

2024

18. Microlensing Near Macro-Caustics.

Author

Weisenbach, Luke, Anguita, Timo, Miralda-Escudé, Jordi, Oguri, Masamune, Saha, Prasenjit, and Schechter, Paul L.

Subjects

*GRAVITATIONAL lenses, *MICROLENSING (Astrophysics), *COSMOLOGICAL distances, *DARK matter, *STELLAR parallax

Abstract

Microlensing near macro-caustics is a complex phenomenon in which swarms of micro-images produced by micro-caustics form on both sides of a macro-critical curve. Recent discoveries of highly magnified images of individual stars in massive galaxy cluster lenses, predicted to be formed by these micro-image swarms, have stimulated studies on this topic. In this article, we explore microlensing near macro-caustics using both simulations and analytic calculations. We show that the mean total magnification of the micro-image swarms follows that of an extended source in the absence of microlensing. Micro-caustics join into a connected network in a region around the macro-critical line of a width proportional to the surface density of microlenses; within this region, the increase of the mean magnification toward the macro-caustic is driven by the increase of the number of micro-images rather than individual magnifications of micro-images. The maximum achievable magnification in micro-caustic crossings decreases with the mass fraction in microlenses. We conclude with a review of applications of this microlensing phenomenon, including limits to the fraction of dark matter in compact objects, and searches of Population III stars and dark matter subhalos. We argue that the discovered highly magnified stars at cosmological distances already imply that less than ∼ 10% of the dark matter may be in the form of compact objects with mass above ∼ 10 − 6 M ⊙ . [ABSTRACT FROM AUTHOR]

Published

2024

19. The original composition of the gas forming first-generation stars in clusters: Insights from HST and JWST.

Author

Legnardi, M. V., Milone, A. P., Cordoni, G., Marino, A. F., Dondoglio, E., Jang, S., Lagioia, E P., Muratore, F., Ziliotto, T., Bortolan, E., and Mohandasan, A.

Subjects

*STAR clusters, *STELLAR populations, *GIANT stars, *STELLAR parallax, *STELLAR mass, *GLOBULAR clusters

Abstract

Globular cluster (GC) stars composed of pristine material, also known as first-generation (1G) stars, are not chemically homogeneous as they exhibit extended sequences in the chromosome map (ChM). Recent studies characterized 1G stars within the center of 55 Galactic GCs, revealing metallicity variations. Despite this progress, several unanswered questions persist, particularly concerning the link between the 1G metallicity spread and factors such as the radial distance from the cluster center or the host GC parameters. Additionally, it remains unclear whether the extended 1G sequence phenomenon is exclusive to old Galactic GCs with multiple populations. This work addresses these open issues, examining 1G stars in different environments. First, we combine Hubble Space Telescope (HST) and James Webb Space Telescope photometry of the GC 47 Tucanae to study 1G stars at increasing distances from the cluster center. We find that metal-rich 1G stars are more centrally concentrated than metal-poor ones, suggesting a metallicity radial gradient. Additionally, the two groups of 1G stars share similar kinematics. Since our analysis focuses on giant stars in the cluster center and M dwarfs in external fields, we discuss the possibility that the metallicity distribution depends on stellar mass. Subsequently, we analyze HST multi-band photometry of two simple-population clusters, NGC 6791 and NGC 1783, revealing elongated sequences in the ChM associated with metallicity variations. Finally, we investigate the 1G color distribution in 51 GCs, finding no connections with the host cluster parameters. These results shed light on the complex nature of 1G stars, providing insights into the GC formation environment. [ABSTRACT FROM AUTHOR]

Published

2024

20. Faraday tomography of LoTSS-DR2 data: II. Multi-tracer analysis in the high-latitude outer Galaxy.

Author

Erceg, Ana, Jelić, Vibor, Haverkorn, Marijke, Bracco, Andrea, Ceraj, Lana, Turić, Luka, and Soler, Juan D.

Subjects

*HOUGH transforms, *MAGNETIC structure, *STELLAR parallax, *INTERSTELLAR medium, *MAGNETIC fields

Abstract

Context. We conducted a follow-up study on the analysis of the LOw Frequency ARray (LOFAR) Two-metre Sky Survey (LoTSS) mosaic in the high-latitude outer Galaxy presented in the first paper of this series. Here, we focus on the search for alignment between the magnetic field traced by dust, HI filaments, starlight optical linear polarisation, and linear depolarised structures (depolarisation canals) observed in low-frequency synchrotron polarisation. This alignment was previously found in several smaller fields observed with LOFAR, offering valuable insights into the nature of the interstellar medium and the 3D spatial distribution of the diffuse ionised medium. Aims. We aim to determine whether the alignment of the interstellar medium (ISM) phases observed through multiple tracers is a common occurrence or an exception. Additionally, in areas where depolarisation canals align with the magnetic field, we use starlight polarisation to constrain the distance to the structures associated with the observed canals. Methods. We employed the Rolling Hough Transform (RHT) and projected Rayleigh statistics (PRS) to identify and quantify the alignment between the different tracers. We used these tools to detect linear features in the data and quantify the significance of the orientation trends between pairs of tracers. Results. On the scale of the whole mosaic, we did not find any evidence of a universal alignment among the three tracers. However, in one particular area, the western region (Dec between 29° and 70° and RA between 7h44m and 9h20m), we do find a significant alignment between the magnetic field, depolarisation canals, and HI filaments. Based on this alignment, we used the starlight polarisation of stars with known parallax distances to estimate that the minimum distance to the structures observed by LOFAR in this region lies within the range of 200 to 240 pc. We associate these structures with the edge of the Local Bubble. [ABSTRACT FROM AUTHOR]

Published

2024

21. Statistics of magnification for extremely lensed high redshift stars.

Author

Palencia, J. M., Diego, J. M., Kavanagh, B. J., and Martínez-Arrizabalaga, J.

Subjects

*GRAVITATIONAL lenses, *STELLAR parallax, *COSMOLOGICAL distances, *STARS, *GRAVITATIONAL fields

Abstract

Microlensing of stars in strongly lensed galaxies can lead to temporary extreme magnification factors (μ> 1000), enabling their detection at high redshifts. Following the discovery of Icarus, several stars at cosmological distances (z > 1) have been observed using the Hubble Space Telescope (HST) and the James Webb Space Telescope (JWST). This emerging field of gravitational lensing holds promise to study individual high redshift stars. It also offers the opportunity to study the substructure in the lens plane with implications for dark matter models, as more lensed stars are detected and analysed statistically. Due to the computational demands of simulating microlensing at large magnification factors, it is important to develop fast and accurate analytical approximations for the probability of magnification in such extreme scenarios. In this study, we consider different macro-model magnification and microlensing surface mass density scenarios and study how the probability of extreme magnification factors depends on these factors. To achieve this, we created state-of-the-art large simulations of the microlensing effect in these scenarios. Through the analysis of these simulations, we derived analytical scaling relationships that can bypass the need for expensive numerical simulations. Our results are useful to interpret current observations of stars at cosmic distances which are extremely magnified and under the influence of microlenses. [ABSTRACT FROM AUTHOR]

Published

2024

22. The impact of a top-heavy IMF on the formation and evolution of dark star clusters.

Author

Shirazi, Ali Rostami, Haghi, Hosein, Zonoozi, Akram Hasani, Farhani Asl, Ahmad, and Kroupa, Pavel

Subjects

*STAR clusters, *STELLAR evolution, *GLOBULAR clusters, *STELLAR parallax, *STELLAR luminosity function, *BLACK holes

Abstract

The Spitzer instability leads to the formation of a black hole subsystem (BHSub) at the centre of a star cluster providing energy to luminous stars (LSs) and increasing their rate of evaporation. When the self-depletion time of the BHSub exceeds the evaporation time of the LSs, a dark star cluster (DSC) will appear. Using the nbody7 code, we performed a comprehensive set of direct N -body simulations over a wide range of initial conditions to study the pure effect of the top-heaviness of the initial mass function (IMF) on the formation of the DSC phase. In the Galactic tidal field, top-heavy IMFs lead to the fast evaporation of LSs and the formation of DSCs. Therefore, DSCs can be present even in the outer region of the Milky Way (MW). To successfully transition to the DSC phase, the MW Globular Clusters (GCs) must possess an initial black hole (BH) mass fraction of |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\gt 0.05$|⁠. For star clusters with |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\gt 0.08$|⁠ , the DSC phase will be created for any given initial density of the cluster and Galactocentric distance. The duration of the cluster's lifetime spent in the DSC phase shows a negative (positive) correlation with the initial density, and Galactocentric distance of the star cluster if |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\le 0.12$| (⁠|$\widetilde {\mathit {M}}_\mathrm{BH}(0)\ge 0.15$|⁠). Considering the canonical IMF, it is unlikely for any MW GCs to enter the DSC phase. We discuss the BH retention fraction in view of the observed properties of the GCs of the MW. [ABSTRACT FROM AUTHOR]

Published

2024

23. Correction to: Neutron star mass in dark matter clumps.

Author

Deliyergiyev, Maksym, Del Popolo, Antonino, and Le Delliou, Morgan

Subjects

*STELLAR mass, *NEUTRON stars, *DARK matter, *STELLAR parallax, *GALACTIC center

Abstract

The given text appears to be a correction to a previous paper that examined the relationship between neutron star mass and dark matter accumulation within dark matter clumps. The authors identified an error in their code that resulted in distance measurements being given with respect to the Sun instead of the Galactic center. They corrected the distance values and found that the resulting plots changed, but the results and conclusions remained qualitatively similar. The document includes figures and graphs that illustrate the corrected analysis. [Extracted from the article]

Published

2024

24. Searching for OB-type pre-supernova binary companions inside supernova remnants.

Author

Dinçel, B, Uzuner, M, Neuhäuser, R, Pannicke, A, Yerli, S K, Ankay, A, Mugrauer, M, and Torres, G

Subjects

*SUPERNOVA remnants, *STELLAR parallax, *MAIN sequence (Astronomy), *SUPERGIANT stars, *STARS, *ASTROMETRY

Abstract

We searched for OB-runaway stars inside supernova remnants (SNRs) as a pre-supernova binary companion. As the majority of massive stars are found in close binary systems, a runaway star ejected by the orbital energy after the supernova (SN) is expected to be found. Considering a binary mass fraction, q = 0.25−1.0, the runaway star is likely to have an OB spectral type. We selected 12 SNRs at Galactic longitudes 109°−189°. Using Gaia astrometry, we selected stars having consistent distances with those of the SNRs and showing a peculiar proper motion directed away from the central region of the SNRs. We also determined the radial distribution of the extinction towards the SNRs and estimated the spectral types of the OB-runaway candidates through Gaia and Two Micron All Sky Survey photometry. We found two candidates among 12 SNRs. By spectroscopic observations, Gaia DR3 195632152560621440 inside SNR G166.0 + 4.3 was found to be an evolved A3 type star that cannot be the pre-SN binary companion to the progenitor. Gaia DR3 513927750767375872 inside SNR HB 3 is the only OB-runaway candidate (2D space velocity of 33.3 ± 3.3 km s−1). Based on photometric study, the star can be an early B-type main-sequence star with a slightly higher extinction relative to the SNR; however, it might instead be an evolved A-type star at the same distance. The other 11 SNRs do not host an OB-runaway star within their central regions. Although the runaway search was performed in a large interval of distance and extinction, we also estimated distances to the SNRs. [ABSTRACT FROM AUTHOR]

Published

2024

25. Rotation of the Milky Way Halo in the Solar Vicinity Based on GAIA DR3 Catalog.

Author

Tkachenko, R. V., Bryndina, A. P., Zhmailova, A. B., and Korchagin, V. I.

Subjects

*RR Lyrae stars, *STELLAR parallax, *MILKY Way, *HALOS (Meteorology), *KINEMATICS

Abstract

The rotation of the Milky Way halo in the solar vicinity is studied using kinematic data of the GAIA DR3 catalog for RR Lyrae variable stars with parallax errors of less than 20%. Two criteria were used for selecting halo stars: kinematic and spatial. In both approaches, we confirm the existence of weak rotation of the halo in the direction opposite to the rotation of the Galactic disk with velocities of km/s for the kinematic criterion and km/s for the spatial criterion. [ABSTRACT FROM AUTHOR]

Published

2024

26. So Tell Me How It Ends.

Author

HEMMERT, ANDREW

Subjects

*STELLAR parallax, *ROAD construction, *FERAL dogs, *BLACK holes, *FALL foliage, *KISSING

Abstract

The article "So Tell Me How It Ends" from the Southern Humanities Review explores themes of existentialism, environmental degradation, and human impact on the world. The author reflects on the impermanence of life, the destructive nature of humanity, and the interconnectedness of all living beings. Through vivid imagery and introspective musings, the text delves into the complexities of existence and the inevitability of change. The narrative weaves together personal experiences, societal critiques, and philosophical reflections to provoke thought and contemplation on the state of the world and our place within it. [Extracted from the article]

Published

2024

27. The GALAH survey: tracing the Milky Way's formation and evolution through RR Lyrae stars.

Author

D'Orazi, Valentina, Storm, Nicholas, Casey, Andrew R, Braga, Vittorio F, Zocchi, Alice, Bono, Giuseppe, Fabrizio, Michele, Sneden, Christopher, Massari, Davide, Giribaldi, Riano E, Bergemann, Maria, Campbell, Simon W, Casagrande, Luca, de Grijs, Richard, De Silva, Gayandhi, Lugaro, Maria, Zucker, Daniel B, Bragaglia, Angela, Feuillet, Diane, and Fiorentino, Giuliana

Subjects

*RR Lyrae stars, *MILKY Way, *STELLAR parallax, *LOW mass stars, *STARS

Abstract

Stellar mergers and accretion events have been crucial in shaping the evolution of the Milky Way (MW). These events have been dynamically identified and chemically characterized using red giants and main-sequence stars. RR Lyrae (RRL) variables can play a crucial role in tracing the early formation of the MW since they are ubiquitous, old (t ≥ 10 Gyr) low-mass stars and accurate distance indicators. We exploited Data Release 3 of the GALAH survey to identify 78 field RRLs suitable for chemical analysis. Using synthetic spectra calculations, we determined atmospheric parameters and abundances of Fe, Mg, Ca, Y, and Ba. Most of our stars exhibit halo-like chemical compositions, with an iron peak around [Fe/H] ≈ −1.40, and enhanced Ca and Mg content. Notably, we discovered a metal-rich tail, with [Fe/H] values ranging from −1 to approximately solar metallicity. This sub-group includes almost 1/4 of the sample, it is characterized by thin disc kinematics and displays sub-solar α-element abundances, marginally consistent with the majority of the MW stars. Surprisingly, they differ distinctly from typical MW disc stars in terms of the s-process elements Y and Ba. We took advantage of similar data available in the literature and built a total sample of 535 field RRLs for which we estimated kinematical and dynamical properties. We found that metal-rich RRLs (1/3 of the sample) likely represent an old component of the MW thin disc. We also detected RRLs with retrograde orbits and provided preliminary associations with the Gaia–Sausage–Enceladus, Helmi, Sequoia, Sagittarius, and Thamnos stellar streams. [ABSTRACT FROM AUTHOR]

Published

2024

28. The M33 synoptic stellar survey. III. Miras and LPVs in griJHKS.

Author

Konchady, Tarini, Macri, Lucas M, Yan, Xiaomeng, and Huang, Jianhua Z

Subjects

*MACHINE learning, *STELLAR parallax, *ASYMPTOTIC giant branch stars, *TELESCOPES

Abstract

We present the results of a search for Miras and long-period variables (LPVs) in M33 using griJHKS archival observations from the Canada–France–Hawaii Telescope. We use multiband information and machine learning techniques to identify and characterize these variables. We recover ∼1300 previously discovered Mira candidates and identify ∼13 000 new Miras and LPVs. We detect for the first time a clear first-overtone pulsation sequence among Mira candidates in this galaxy. We use O-rich, fundamental-mode Miras in the LMC and M33 to derive a distance modulus for the latter of μ = 24.629 ± 0.046 mag. [ABSTRACT FROM AUTHOR]

Published

2024

29. The M33 synoptic stellar survey. III. Miras and LPVs in griJHKS.

Author

Konchady, Tarini, Macri, Lucas M, Yan, Xiaomeng, and Huang, Jianhua Z

Subjects

MACHINE learning, STELLAR parallax, ASYMPTOTIC giant branch stars, TELESCOPES

Abstract

We present the results of a search for Miras and long-period variables (LPVs) in M33 using griJHKS archival observations from the Canada–France–Hawaii Telescope. We use multiband information and machine learning techniques to identify and characterize these variables. We recover ∼1300 previously discovered Mira candidates and identify ∼13 000 new Miras and LPVs. We detect for the first time a clear first-overtone pulsation sequence among Mira candidates in this galaxy. We use O-rich, fundamental-mode Miras in the LMC and M33 to derive a distance modulus for the latter of μ = 24.629 ± 0.046 mag. [ABSTRACT FROM AUTHOR]

Published

2024

30. Probing the inner Galactic halo with blue horizontal-branch stars: Gaia DR3-based catalogue with atmospheric and stellar parameters.

Author

Culpan, R., Dorsch, M., Geier, S., Pelisoli, I., Heber, U., Kubátová, B., and Cabezas, M.

Subjects

*STELLAR parallax, *SPECTRAL energy distribution, *LOW mass stars, *GALAXY formation, *STARS, *RED giants, *GALACTIC halos

Abstract

Context. Stars that are found on the blue horizontal-branch (BHB) evolved from low-mass stars that have completed their core hydrogen-burning main sequence (MS) stage and undergone the helium flash at the end of their red giant phase. Hence, they are very old objects that can be used as markers in studying galactic structure and formation history. The fact that their luminosity is virtually constant at all effective temperatures also makes them good standard candles. Aims. We have compiled a catalogue of BHB stars with stellar parameters calculated from spectral energy distributions (SEDs) constructed using data from multiple large-scale photometric surveys. In addition, we update our previous Gaia Early Data Release 3 (EDR3) catalogue of BHB stars with parallax errors less than 20% by using the SED results to define the selection criteria. The purpose of these catalogues is to create a set of BHB star candidates with reliable stellar parameters. In addition, they provide a more complete full-sky catalogue with candidate objects found along the whole BHB from where RR-Lyrae are found on the instability strip to the extreme horizontal-branch (EHB). Methods. We selected a large dataset of Gaia Data Release 3 (DR3) objects based only on their position on the colour-magnitude diagram (CMD), along with the tangential velocity and parallax errors. The SEDs were then used to evaluate contamination levels in the dataset and derive optimised data quality acceptance constraints. This allowed us to extend the Gaia DR3 colour and absolute magnitude criteria further towards the EHB. The level of contamination found using SED analysis was confirmed by acquiring spectra using the Ondrejov Echelle spectrograph, attached to the Perek 2m telescope at the Astronomical Institute of the Czech Academy of Sciences. Results. We present a catalogue of 9172 Galactic halo BHB candidate stars with atmospheric and stellar parameters calculated from synthetic SEDs. We also present an extended Gaia DR3-based catalogue of 22 335 BHB candidate stars with a wider range of effective temperatures and Gaia DR3 parallax errors of less than 20%. This represents an increase of 33% compared to the our 2021 catalogue, with a contamination level of 10%. [ABSTRACT FROM AUTHOR]

Published

2024

31. A dependable distance estimator to black hole low-mass X-ray binaries.

Author

Abdulghani, Y, Lohfink, A M, and Chauhan, J

Subjects

*BLACK holes, *PARALLAX, *X-ray binaries, *STELLAR parallax, *OPEN-ended questions, *ACCRETION disks, *ACCRETION (Astrophysics)

Abstract

Black hole low-mass X-ray binaries (BH-LMXBs) are excellent observational laboratories for studying many open questions in accretion physics. However, determining the physical properties of BH-LMXBs necessitates knowing their distances. With the increased discovery rate of BH-LMXBs, many canonical methods cannot produce accurate distance estimates at the desired pace. In this study, we develop a versatile statistical framework to obtain robust distance estimates soon after discovery. Our framework builds on previous methods where the soft spectral state and the soft-to-hard spectral state transitions, typically present in an outbursting BH-LMXB, are used to place constraints on mass and distance. We further develop the traditional framework by incorporating general relativistic corrections, accounting for spectral/physical parameter uncertainties, and employing assumptions grounded in current theoretical and observational knowledge. We tested our framework by analysing a sample of 50 BH-LMXB sources using X-ray spectral data from the Swift /XRT, MAXI /GSC, and RXTE /PCA missions. By modelling their spectra, we applied our framework to 26 sources from the 50. Comparison of our estimated distances to previous distance estimates indicates that our findings are dependable and in agreement with the accurate estimates obtained through parallax and H  i absorption methods. Investigating the accuracy of our constraints, we have found that estimates obtained using both the soft and transition spectral information have a median uncertainty (1σ) of 20 per cent, while estimates obtained using only the soft spectral state spectrum have a median uncertainty (1σ) of around 50 per cent. Furthermore, we have found no instrument-specific biases. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Hertzsprung progression of classical Cepheids in the Gaia era.

Author

Marconi, Marcella, De Somma, Giulia, Molinaro, Roberto, Bhardwaj, Anupam, Ripepi, Vincenzo, Musella, Ilaria, Sicignano, Teresa, Trentin, Erasmo, and Leccia, Silvio

Subjects

*CEPHEIDS, *LIGHT curves, *STELLAR mass, *STELLAR oscillations, *STELLAR parallax, *STELLAR evolution

Abstract

A new fine grid of non-linear convective pulsation models for the so-called 'bump Cepheids' is presented to investigate the Hertzprung progression (HP) phenomenon shown by their light and radial pulsation velocity curves. The period corresponding to the centre of the HP is investigated as a function of various model assumptions, such as the efficiency of superadiabatic convection, the mass–luminosity relation, and the metal and helium abundances. The assumed mass–luminosity relation is found to significantly affect the phenomenon but variations in the chemical composition as well as in the stellar mass (at fixed mass–luminosity relation) also play a key role in determining the value of the HP centre period. Finally, the predictive capability of the presented theoretical scenario is tested against observed light curves of bump Cepheids in the ESA Gaia data base, also considering the variation of the pulsation amplitudes and of the Fourier parameters R 21 and Φ21 with the pulsation period. A qualitative agreement between theory and observations is found for what concerns the evolution of the light curve morphology as the period moves across the HP centre, as well for the pattern in period–amplitude, period– R 21, and period–Φ21 planes. A larger sample of observed Cepheids with accurate light curves and metallicities is required in order to derive more quantitative conclusions. [ABSTRACT FROM AUTHOR]

Published

2024

33. Exploring the origin of the distance bimodality of stars in the periphery of the Small Magellanic Cloud with APOGEE and Gaia.

Author

Almeida, Andres, Majewski, Steven R, Nidever, David L, Olsen, Knut A G, Monachesi, Antonela, Kallivayalil, Nitya, Hasselquist, Sten, Choi, Yumi, Povick, Joshua T, Wilson, John C, Geisler, Doug, Lane, Richard R, Nitschelm, Christian, Sobeck, Jennifer S, and Stringfellow, Guy S

Subjects

*SMALL magellanic cloud, *STELLAR parallax, *LARGE magellanic cloud, *GALACTIC evolution, *MAGELLANIC clouds, *ASTROMETRY, *DWARF galaxies

Abstract

The Magellanic Cloud system represents a unique laboratory for study of both interacting dwarf galaxies and the ongoing process of the formation of the Milky Way and its halo. We focus on one aspect of this complex, three-body interaction – the dynamical perturbation of the Small Magellanic Cloud (SMC) by the Large Magellanic Cloud (LMC), and specifically potential tidal effects on the SMC's eastern side. Using Gaia astrometry and the precise radial velocities (RVs) and multielement chemical abundances from Apache Point Observatory Galactic Evolution Experiment (APOGEE-2) Data Release 17, we explore the well-known distance bimodality on the eastern side of the SMC. Through estimated stellar distances, proper motions, and RVs, we characterize the kinematics of the two populations in the bimodality and compare their properties with those of SMC populations elsewhere. Moreover, while all regions explored by APOGEE seem to show a single chemical enrichment history, the metallicity distribution function (MDF), of the 'far' stars on the eastern periphery of the SMC is found to resemble that for the more metal-poor fields of the western periphery, whereas the MDF for the 'near' stars on the eastern periphery resembles that for stars in the SMC Centre. The closer eastern periphery stars also show RVs (corrected for SMC rotation and bulk motion) that are, on average, approaching us relative to all other SMC populations sampled. We interpret these trends as evidence that the near stars on the eastern side of the SMC represent material pulled out of the central SMC as part of its tidal interaction with the LMC. [ABSTRACT FROM AUTHOR]

Published

2024

34. Spectral and type I X-ray burst studies of 4U 1702−429 using AstroSat observations.

Author

Varun, M, Thomas, Neal Titus, Gudennavar, S B, and Bubbly, S G

Subjects

*X-ray bursts, *X-ray binaries, *STELLAR parallax, *NEUTRON stars, *X-ray telescopes, *MOLECULAR spectra

Abstract

4U 1702−429, an atoll-type neutron star low-mass X-ray binary, was observed twice by the AstroSat /Soft X-ray Telescope (SXT) and Large Area X-ray Proportional Counters (LAXPC-20) on 2018 April 27 and 2019 August 8. Persistent emission spectra of the source were well fitted with the model combination - constant × tbabs (thcomp × diskbb+powerlaw). The parameters obtained from the spectral analysis revealed the source to be in a hard spectral state during the observations. Time-resolved spectral analyses were performed on the three type I X-ray bursts detected from the source. Burst analysis showed that the source underwent a photospheric radius expansion. Consequently, the radius of the neutron star and distance to the source (with isotropic and anisotropic burst emission) were obtained as 12.65 |$\substack{+0.90\\-0.86}$| km and 6.92 |$\substack{+0.16\\-0.09}$| and 8.43 |$\substack{+0.20\\-0.10}$| kpc, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Milky Way tomography with Subaru Hyper Suprime-Cam. I. Halo substructures.

Author

Suzuki, Yoshihisa, Chiba, Masashi, Komiyama, Yutaka, Hayashi, Kohei, Tanaka, Masayuki, Fukushima, Tetsuya, Carlsten, Scott G, Tokiwa, Akira, Qiu, Tian, and Takada, Masahiro

Subjects

*MILKY Way, *STELLAR parallax, *MAIN sequence (Astronomy), *TOMOGRAPHY, *SPECTROGRAPHS

Abstract

We analyze the photometric data in the Wide layer of the Hyper Suprime-Cam Subaru Strategic Program (HSC-SSP) over ∼1200 deg2 to uncover new halo substructures beyond the distance, D ⊙ ∼ 30 kpc, from the Sun. For this purpose, we develop an isochrone filter for an old, metal-poor stellar system to extract the faint main-sequence stars at a range of distances. With this method, we detect not only the previously discovered substructures such as the Orphan Stream, but also a new overdensity toward Boötes at about D ⊙ ∼ 60 kpc and a new stream-like feature toward Pisces at around D ⊙ ∼ 60 kpc. It has been suggested that a small-scale overdensity exists in this direction of Pisces (the so-called Pisces Overdensity), but our results show that the overdensity is widely spread with a tidally elongated feature. Combining our results with the ongoing Hyper Suprime-Cam narrow-band survey and the near-future spectroscopic survey with Prime Focus Spectrograph (PFS) will allow us to place strong constraints on the origin of these halo substructures. [ABSTRACT FROM AUTHOR]

Published

2024

36. Classical Cepheid pulsation properties in the Rubin-LSST filters.

Author

De Somma, Giulia, Marconi, Marcella, Cassisi, Santi, Molinaro, Roberto, Bhardwaj, Anupam, Ripepi, Vincenzo, Musella, Ilaria, Pietrinferni, Adriano, Sicignano, Teresa, Trentin, Erasmo, and Leccia, Silvio

Subjects

*CEPHEIDS, *PULSATING stars, *STELLAR oscillations, *STELLAR parallax, *STELLAR evolution, *VARIABLE stars

Abstract

Homogeneous multiwavelength observations of classical Cepheids from the forthcoming Rubin-LSST have the potential to significantly contribute to our understanding of the evolutionary and pulsation properties of these pulsating stars. Updated pulsation models for classical Cepheid stars have been computed under various assumptions about chemical compositions, including relatively low metallicity (Z = 0.004 with Y = 0.25 and Z  = 0.008 with Y = 0.25), solar metallicity (Z  = 0.02 with Y  = 0.28), and supersolar metallicity environments (Z = 0.03 with Y = 0.28). From the predicted periods, intensity-weighted mean magnitudes, and colours, we have derived the first theoretical pulsation relations in the Rubin-LSST filters (ugrizy), including period–luminosity–colour, period–Wesenheit, and period–age–colour relations. We find that the coefficients of these relations are almost insensitive to the efficiency of superadiabatic convection but are significantly affected by the assumption of the mass–luminosity relation and the adopted chemical composition. Metal-dependent versions of these relations are also derived, representing valuable tools for individual distance determinations and correction for metallicity effects on the cosmic distance scale. [ABSTRACT FROM AUTHOR]

Published

2024

37. Is the Young Star Association ϵ Cha Double?

Author

Bobylev, V. V. and Bajkova, A. T.

Subjects

*STARS, *STELLAR parallax, *STELLAR orbits, *STAR formation, *AGE groups

Abstract

The kinematics of the ϵ Cha young stellar association close to the Sun has been studied based on a list of candidate stars from the Dickson-Vandervelde et al. work. The working sample consists of 26 stars with parallaxes, proper motions from the Gaia DR3 catalog and radial velocities taken from literary sources. The orbits of the stars back to the past were constructed, and the moment when the association had a minimum spatial size was determined, as well as an analysis of the dependencies of the velocities on the coordinates was carried out. It is shown that the initial sample is divided into two parts with different kinematic properties. The first sample included 9 stars. Based on the construction of the orbits of these 9 stars, an age estimate of million years was obtained. An expansion coefficient in the plane with the value km/s/kpc was also found for them, on the basis of which another age estimate Ma was obtained. The second sample included 17 stars. The construction of their orbits gave an estimate of age Ma, and based on the gradient 248 km/s/kpc, a second estimate of their age Ma was obtained. This suggests that the Cha association either consists of two groupings of different ages, or a younger one arose as a result of a recent outbreak of star formation within a common star system. The question of the gravitational connection of the groupings has not been considered in the framework of this work. [ABSTRACT FROM AUTHOR]

Published

2024

38. De Mundi Recentioribus Phænomenis: Cosmologie et Science dans l'Europe des Temps Modernes, XVe - XVIIIe Siècles, Essais en l'Honneur de Miguel Ángel Granada.

Author

Lequeux, James

Subjects

*ASTRONOMICAL observations, *HISTORY of astronomy, *SOLAR system, *STELLAR parallax, *ASTRONOMERS

Abstract

This article is a review of the book "De Mundi Recentioribus Phænomenis: Cosmologie et Science dans l’Europe des Temps Modernes, XVe – XVIIIe Siècles, Essais en l’Honneur de Miguel Ángel Granada." The book contains a bibliography of Miguel Ángel Granada's works and 19 essays on astronomy and science during the modern period. It is written in multiple languages, which may be challenging for readers. The review highlights essays on topics such as the relationship between astronomical events and Martin Luther's ideas, and Copernicus' debt to Islamic astronomy. The book is considered an important contribution to the understanding of the history of astronomy, but it is primarily intended for specialists. [Extracted from the article]

Published

2024

39. A refined search for high-velocity gas in the Cygnus Loop supernova remnant.

Author

Ritchey, Adam M, Federman, S R, and Lambert, David L

Subjects

*SUPERNOVA remnants, *GAS absorption & adsorption, *STELLAR parallax, *SHOCK waves, *STELLAR spectra, *COSMIC abundances

Abstract

We present the results of a sensitive search for high-velocity gas in interstellar absorption lines associated with the Cygnus Loop supernova remnant (SNR). We examine high-resolution high signal-to-noise ratio optical spectra of six stars in the Cygnus Loop region with distances greater than ∼700 pc. All stars show low-velocity Na  i and Ca  ii absorption. However, only one star, HD 198301, exhibits high-velocity Ca  ii absorption components, at velocities of +62, +82, and  +96 km s−1. The distance to this star of ∼870 pc helps to constrain the distance to the receding edge of the Cygnus Loop's expanding shock front. One of our targets, HD 335334, was previously thought to exhibit high positive and high negative velocity interstellar Na  i and Ca  ii absorption. This was one factor leading Fesen et al. to derive a distance to the Cygnus Loop of 725 ± 15 pc. However, we find that HD 335334 is in fact a double-line spectroscopic binary and shows no evidence of high-velocity interstellar absorption. As such, the distance to HD 335334 cannot be used to constrain the distance to the Cygnus Loop. Our detection of Ca  ii absorption approaching 100 km s−1 toward HD 198301 is the first conclusive detection of high-velocity absorption from a low-ionization species associated with the Cygnus Loop SNR. A large jump in the Na  i column density toward BD+31 4218, a star located beyond the northwestern boundary of the Cygnus Loop, helps to constrain the distance to a large molecular cloud complex with which the Cygnus Loop is evidently interacting. [ABSTRACT FROM AUTHOR]

Published

2024

40. Velocity gradient and stellar polarization: magnetic field tomography towards the L1688 cloud.

Author

Schmaltz, Tyler, Hu, Yue, and Lazarian, Alex

Subjects

*MAGNETIC structure, *MAGNETIC fields, *STELLAR parallax, *TOMOGRAPHY, *MOLECULAR clouds

Abstract

Magnetic fields are a defining yet enigmatic aspect of the interstellar medium, with their three-dimensional (3D) mapping posing a substantial challenge. In this study, we harness the innovative velocity gradient technique (VGT), underpinned by magnetohydrodynamic turbulence theories, to map the magnetic field structure by applying it to the atomic neutral hydrogen (H  i) emission line and the molecular tracer 12CO. We construct the tomography of the magnetic field in the low-mass star-forming region L1688, utilizing two approaches: (1) VGT-H  i combined with the Galactic rotational curve, and (2) stellar polarization paired with precise star parallax measurements. Our analysis reveals that the magnetic field orientations deduced from stellar polarization undergo a distinct directional change in the vicinity of L1688, providing evidence that the misalignment between VGT-H  i and stellar polarization stems from the influence of the molecular cloud's magnetic field on the polarization of starlight. When comparing VGT-12CO to stellar polarization and Planck polarization data, we observe that VGT-12CO effectively reconciles the misalignment noted with VGT-H  i , showing statistical alignment with Planck polarization measurements. This indicates that VGT-12CO could be integrated with VGT-H  i , offering vital insights into the magnetic fields of molecular clouds, thereby enhancing the accuracy of our 3D magnetic field reconstructions. [ABSTRACT FROM AUTHOR]

Published

2024

41. Neutron star mass in dark matter clumps.

Author

Deliyergiyev, Maksym, Popolo, Antonino Del, and Le Delliou, Morgan

Subjects

*STELLAR mass, *DARK matter, *STELLAR evolution, *STELLAR parallax, *GALAXIES, *NEUTRON stars

Abstract

This paper investigates a hypothesis proposed in previous research relating neutron star (NS) mass and its dark matter (DM) accumulation. As DM accumulates, NS mass decreases, predicting lower NS masses toward the Galactic centre. Due to limited NSs data near the Galactic centre, we examine NSs located within DM clumps. Using the CLUMPY code simulations, we determine the DM clumps distribution, with masses from 10 to 108 M⊙ and scales from 10−3 to 10 kpc. These clumps' DM exhibit a peak at the centre, tapering toward the outskirts, resembling our Galaxy's DM distribution. We analyse these DM clumps' NS mass variations, considering diverse DM particle masses and galaxy types. We find relatively stable NS mass within 0.01 – 5 kpc from the clump centre. This stability supports the initial hypothesis, particularly for NSs located beyond 0.01 kpc from the clump centre, where NS mass reaches a plateau around 0.1 kpc. Nevertheless, NS mass near the clump's periphery reveals spatial dependence: NS position within DM clumps influences its mass in Milky Way-type galaxies. Moreover, this dependence varies with the DM model considered. In summary, our study investigates the proposed link between NS mass and DM accumulation by examining NSs within DM clumps. While NS mass remains stable at certain distances from the clump centre, spatial dependencies arise near the clump's outer regions, contingent on the specific DM model. [ABSTRACT FROM AUTHOR]

Published

2024

42. The Blanco DECam Bulge Survey (BDBS): VIII. Chemo-kinematics in the southern Galactic bulge from 2.3 million red clump stars with Gaia DR3 proper motions.

Author

Marchetti, Tommaso, Joyce, Meridith, Johnson, Christian I., Rich, R. Michael, Clarkson, William, Kunder, Andrea, Simion, Iulia T., and Pilachowski, Catherine A.

Subjects

*GALACTIC bulges, *STELLAR parallax, *ANGULAR velocity, *GALACTIC evolution, *GALAXY formation

Abstract

Context. The inner Galaxy is a complex environment, and the relative contributions of different formation scenarios to its observed morphology and stellar properties are still debated. The different components are expected to have different spatial, kinematic, and metallicity distributions, and a combination of photometric, spectroscopic, and astrometric large-scale surveys is needed to study the formation and evolution of the Galactic bulge. Aims. The Blanco DECam Bulge Survey (BDBS) provides near-ultraviolet to near-infrared photometry for approximately 250 million unique stars over more than 200 square degrees of the southern Galactic bulge. By combining BDBS photometry with the latest Gaia astrometry, we aim to characterize the chemodynamics of red clump stars across the BDBS footprint using an unprecedented sample size and sky coverage. Methods. Our field of view of interest is |ℓ| ≤ 10°, −10° ≤b ≤ −3°. We constructed a sample of approximately 2.3 million red clump giants in the bulge with photometric metallicities, BDBS photometric distances, and proper motions. Photometric metallicities are derived from a (u − i)0 versus [Fe/H] relation; astrometry, including precise proper motions, is from the third data release (DR3) of the ESA satellite Gaia. We studied the kinematics of the red clump stars as a function of sky position and metallicity by investigating proper-motion rotation curves, velocity dispersions, and proper-motion correlations across the southern Galactic bulge. Results. By binning our sample into eight metallicity bins in the range of −1.5 dex < [Fe/H] < +1 dex, we find that metal-poor red clump stars exhibit lower rotation amplitudes, at ∼29 km s−1 kpc−1. The peak of the angular velocity is ∼39 km s−1 kpc−1 for [Fe/H] ∼ −0.2 dex, exhibiting declining rotation at higher [Fe/H]. The velocity dispersion is higher for metal-poor stars, while metal-rich stars show a steeper gradient with Galactic latitude, with a maximum dispersion at low latitudes along the bulge minor axis. Only metal-rich stars ([Fe/H] ≳ −0.5 dex) show clear signatures of the bar in their kinematics, while the metal-poor population exhibits isotropic motions with an axisymmetric pattern around Galactic longitude ℓ = 0. Conclusions. This work describes the largest sample of bulge stars with distance, metallicity, and astrometry reported to date, and shows clear kinematic differences with metallicity. The global kinematics over the bulge agrees with earlier studies. However, we see striking changes with increasing metallicity, and, for the first time, kinematic differences for stars with [Fe/H]>  − 0.5, suggesting that the bar itself may have kinematics that depends on metallicity. [ABSTRACT FROM AUTHOR]

Published

2024

43. Predicting astrometric microlensing events from Gaia Data Release 3.

Author

Su, Jie, Wang, Jiancheng, Zhang, Yigong, Cheng, Xiangming, and Yang, Lei

Subjects

*DATA release, *HIGH mass stars, *STELLAR parallax, *BLACK holes, *ASTROMETRY, *STELLAR mass

Abstract

Currently, astrometric microlensing is the only tool that can directly measure the mass of a single star; it can also help us to detect compact objects such as isolated neutron stars and black holes. The number of microlensing events that are being predicted and reported is increasing. In this paper, potential lens stars are selected from three types of stars: high-proper-motion stars, nearby stars, and high-mass stars. For each potential lens star, we select a larger search scope to find possible matching sources and to avoid missing events as much as possible. Using data from Gaia Data Release 3, we predict 4500 astrometric microlensing events with δθ+ > 0.1 mas, which occur between J2010.0 and J2070.0, where 1664 events are different from those found previously. There are 293 lens stars that can cause two or more events, where five lens stars can cause more than 50 events. We find that 116 events have the distance of background stars from the proper motion path of lens stars more than 8 arcsec in the reference epoch, where the maximum distance is 16 |${_{.}^{\prime\prime}}$| 6. Thus, the cone search method of expanding the search range of sources for each potential lens star can reduce the possibility of missing events. [ABSTRACT FROM AUTHOR]

Published

2024

44. Laying the foundations of heliocentrism in primary school II: looking through the eyes of Galileo and Bessel.

Author

Pincelli, M M, Formichella, M Del C, Tolosa, M F, Aires, G Rodríguez, and Otranto, S

Subjects

*HELIOCENTRIC model (Astronomy), *PRIMARY schools, *HYPOTHESIS

Abstract

In this work, a didactic sequence for students with ages 9–10 that provides an experimental approach to the stellar parallax concept and revisits the events that humanity had to transit before the heliocentric model was accepted is introduced. This sequence complements our adaptation of the first observation attempted by Galileo to demonstrate the heliocentric hypothesis to be correct and that was specifically designed for ages 12–13. An experimental setup designed to mimic Bessel observations is also introduced in order to bridge the gap between the early attempt by Galileo and the present state of knowledge. [ABSTRACT FROM AUTHOR]

Published

2024

45. Black Holes as Frozen Stars: Regular Interior Geometry.

Author

Brustein, Ram, Medved, Allan Joseph Michael, Shindelman, Tom, and Simhon, Tamar

Subjects

*THERMODYNAMICS, *STARS, *POTENTIAL barrier, *GEOMETRY, *STELLAR parallax, *SCHWARZSCHILD black holes, *BLACK holes

Abstract

The authors have proposed a model geometry for the interior of a regular black hole (BH) mimicker, the frozen star, whose most startling feature is that each spherical shell in its interior is a surface of infinite redshift. The geometry is a solution of the Einstein equations which is sourced by an exotic matter with maximally negative radial pressure. The frozen star geometry is previously presented in singular coordinates for which −gtt$-g_{tt}$ and grr$g^{rr}$ vanish in the bulk and connect smoothly to the Schwarzschild exterior. Additionally, the geometry is mildly singular in the center of the star. Here, the authors present regular coordinates for the entirety of the frozen star. Each zero in the metric is replaced with a small, dimensionless parameter ε; in both −gtt$-g_{tt}$ and grr$g^{rr}$ thus maintaining maximally negative radial pressure. The authors also regularize the geometry, energy density and pressure in the center of the star in a smooth way. The frozen star solution presented here is a completely regular solution of Einstein's equations whose compactness is arbitrarily close to that of a Schwarzschild BH. It obeys the null energy condition, the universally agreed‐upon energy condition, and it is free of any known pathology. As far as it is known, this is the first solution that obeys all of these constraints and, in addition, as will be shown in a future publication, can mimic all of the thermodynamic properties of a standard BH. Our initial analysis uses Schwarzschild‐like coordinates and applies the Killing equations to show that an infalling, point‐like object will move very slowly, effectively sticking to the surface of the star and never coming out. If one nevertheless follows the trajectory of the object into the interior of the star, it moves along an almost‐radial trajectory until it comes within a small distance from the star's center. Once there, if the object has any amount of angular momentum at all, it will be reflected outwards by a potential barrier onto a different almost‐radial trajectory. Finally, using Kruskal‐like coordinates, the causal structure of the regularized frozen star and discuss its ε→0$\varepsilon \rightarrow 0$ limit, for which the geometry degenerates and becomes effectively two dimensional is considered. [ABSTRACT FROM AUTHOR]

Published

2024

46. The largest and most ambitious quantitative spectroscopic analysis of B-type supergiants in the Milky Way.

Author

de Burgos, Abel, Simon-Díaz, Sergio, and Urbaneja, Miguel A.

Subjects

*STELLAR parallax, *STELLAR rotation, *STELLAR evolution, *OPTICAL spectra, *HR diagrams

Abstract

Empirical constraints are master keys for testing theoretical evolutionary model predictions. In massive stars, the region in the Hertzsprung-Russell diagram (HRD) in which the Blue Supergiants (BSGs) are located sets several important constraints to the models, and in particular to the theoretical end of the main sequence (MS). So far, we are missing from a full quantitative spectroscopic analysis (QSA) of a sample of BSGs large enough to be statistically significant and without observational biases. We present results from a QSA of a sample of ∼700 Galactic BSGs for which we have high-resolution multi-epoch optical spectra. [ABSTRACT FROM AUTHOR]

Published

2024

47. 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

48. Orbital Regularity of Exoplanets and the Symmetries of the Kepler Problem.

Author

Cseh, József, Dang, Phong, Szilágyi, Sándor, and Lévai, Géza

Subjects

*KEPLER problem, *SOLAR system, *STELLAR parallax, *EXTRASOLAR planets, *SYMMETRY, *CELESTIAL mechanics

Abstract

We investigate the question whether or not the orbitals of exoplanets follow the symmetry-governed sequence found by Barut from the dynamical group of the Kepler problem. In particular, we consider their star distances, periods, and velocities. Previous studies have shown the validity of this regularity for our solar system, and for some selected exoplanet systems. Here, we study all the systems which are known with four or more planets. A remarkable result is found: 63 out of 100 systems show a better agreement between the theory and observation than our solar system. We discuss the relation between the symmetry-inspired transformations and the generalized Titius–Bode (gTB) rule. It turns out that the gTB rule, which has been considered purely empirical, can be obtained from the transformations corresponding to the dynamical group of the Kepler problem. [ABSTRACT FROM AUTHOR]

Published

2023

49. Spectral investigation of the interstellar cloud towards a runaway star AE Aur.

Author

Bondar, A and Krełowski, J

Subjects

*INTERSTELLAR molecules, *OPTICAL spectra, *OPTICAL resolution, *STELLAR parallax, *RESEARCH personnel

Abstract

The goal of this study is tracking of possible changes in the spectrum of the interstellar cloud seen along the sightline towards a runaway star AE Aur. The study considers variations in the radial velocities of the interstellar molecules and atoms, dwelling in the cloud, for the period ≈17 yr. The most recent results of 6 yr monitoring of equivalent widths variability for the CH and CH+ absorption lines are also presented. The study was done using the CH B-X(0,0) 3886 Å, A-X (0,0) 4300 Å and the CH+ A-X (1-0) 3958 Å, A-X (0,0) 4232 Å lines as well as the interstellar potassium K  i 7699 Å line. Moreover, a short discussion concerning the distance to the star is included. The present study is a continuation of our previous works and works of other researchers dedicated to the problem of small-scale structure in diffuse interstellar clouds. High resolution optical spectra from different spectrographs have been used in this work. The results of the study do not demonstrate significant changes in the radial velocities of the spectral features mentioned. The intensities of the CH and CH+ lines show slight tendency to vary at 1–3  per cent level. [ABSTRACT FROM AUTHOR]

Published

2023

50. Speckle imaging of γ2 Velorum: the inner wind possibly resolved.

Author

Shara, Michael M, Howell, Steve B, Furlan, Elise, Garland, James T, Moffat, Anthony F J, and Zurek, David

Subjects

*SPECKLE interferometry, *STELLAR parallax, *SUPERGIANT stars, *STELLAR mass, *MID-infrared spectroscopy, *STELLAR winds

Abstract

Accurately quantifying the rates d M /d t at which massive stars lose mass is essential to any understanding of their evolution. All d M /d t estimates to date assume wind clumping factors; not allowing for clumping leads to overestimates of d M /d t and underestimates of lifetimes and masses when these stars explode as supernovae. Mid-infrared spectroscopy suggested that the wind of the nearest Wolf–Rayet (WR) star, γ2 Vel, is resolved with a full width at 10 per cent intensity of 0.5 arcsec, or 171 au at the 342 pc distance of the star. As the Zorro speckle imager on Gemini South is capable of ∼0.02 arcsec resolution, we have used it to image γ2 Vel at two orbital phases (0.30 and 0.44) with two narrow-band and two intermediate-band filters in an attempt to resolve its wind. Our observations demonstrate that γ2 Vel's wind may be resolved as a ∼0.07 arcsec westward elongation through an 832 nm filter at orbital phase 0.3. If confirmed, this is the smallest scale (∼24 au) at which a WR star wind asymmetry has been directly imaged. Similar imaging at multiple phases is needed to determine if the asymmetry is due to stochastic wind clumping, co-rotating interaction regions or colliding-wind, cone-shaped shocks. [ABSTRACT FROM AUTHOR]

Published

2023