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Main Authors: Alslaihat, Motasem J., Widyan, Hatem S., Al-Wardat, Mashhoor A., Kasawneh, Awni M., Taneenah, Diala M., Hussein, Abdullah M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.02540
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author Alslaihat, Motasem J.
Widyan, Hatem S.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Taneenah, Diala M.
Hussein, Abdullah M.
author_facet Alslaihat, Motasem J.
Widyan, Hatem S.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Taneenah, Diala M.
Hussein, Abdullah M.
contents In this paper, we estimated the physical and geometrical characteristics of the visually close binary stellar system Hip 45571, using Al-Wardat's method for analyzing binary and multiple stellar systems. We estimated the physical properties of the components of the system for the four measured parallax given by Gaia and Hipparcos, which gives a dynamical mass sum ranges between 2.43 and 2.52 solar mass using the new orbital parameters following Tokovinin's dynamical method. The method used is a spectrophotometrical computational technique that employs Kurucz plane-parallel line-blanketed model atmospheres for single stars. These model atmospheres are used to construct the synthetic spectral energy distributions (SED) of each component and for the entire system. To ensure the method's accuracy, we apply the fit between synthetic and observational photometry under different filters, including the recently published Gaia DR3 measurements. The positions of the components on the H-R diagram and the evolutionary tracks were used to estimate their masses and ages. We found that the system consists of 2.24 Gyr two F2.5 IV and F3.5 IV subgiant components with T_eff_A= 6800, T_eff_B= 6700, logg=4.19 m/s^2, logg=4.33 m/s^2, R_A=1.77 R_sun, R_B=1.34 R_sun, L_A=6.01 L_sun, L_B=3.25 L_sun and Z=0.011. Depending on the masses estimated by Al-Wardat's method, a new parallax value of 28.72+-0.30 mas was obtained. Which lies between the values given by DR2 and DR3. This research underscores the importance of precision and reliability in employing these methods and measurements in a dynamic context, deepening our understanding of such stellar systems.
format Preprint
id arxiv_https___arxiv_org_abs_2511_02540
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Comprehensive Study of the Physical and Geometrical Characteristics of the Close Visual Binary System HIP 45571
Alslaihat, Motasem J.
Widyan, Hatem S.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Taneenah, Diala M.
Hussein, Abdullah M.
Solar and Stellar Astrophysics
In this paper, we estimated the physical and geometrical characteristics of the visually close binary stellar system Hip 45571, using Al-Wardat's method for analyzing binary and multiple stellar systems. We estimated the physical properties of the components of the system for the four measured parallax given by Gaia and Hipparcos, which gives a dynamical mass sum ranges between 2.43 and 2.52 solar mass using the new orbital parameters following Tokovinin's dynamical method. The method used is a spectrophotometrical computational technique that employs Kurucz plane-parallel line-blanketed model atmospheres for single stars. These model atmospheres are used to construct the synthetic spectral energy distributions (SED) of each component and for the entire system. To ensure the method's accuracy, we apply the fit between synthetic and observational photometry under different filters, including the recently published Gaia DR3 measurements. The positions of the components on the H-R diagram and the evolutionary tracks were used to estimate their masses and ages. We found that the system consists of 2.24 Gyr two F2.5 IV and F3.5 IV subgiant components with T_eff_A= 6800, T_eff_B= 6700, logg=4.19 m/s^2, logg=4.33 m/s^2, R_A=1.77 R_sun, R_B=1.34 R_sun, L_A=6.01 L_sun, L_B=3.25 L_sun and Z=0.011. Depending on the masses estimated by Al-Wardat's method, a new parallax value of 28.72+-0.30 mas was obtained. Which lies between the values given by DR2 and DR3. This research underscores the importance of precision and reliability in employing these methods and measurements in a dynamic context, deepening our understanding of such stellar systems.
title A Comprehensive Study of the Physical and Geometrical Characteristics of the Close Visual Binary System HIP 45571
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2511.02540