Bright spectroscopic binaries: III. Binary systems with orbital periods of P>500days

We present an analysis of nine bright spectroscopic binaries (HD 1585, HD 6613, HD 12390, HD 39923, HD 55201, HD 147430, HD 195543, HD 202699, HD 221643), which have orbital periods of P>500$$ P>500 $$ days. These well‐separated binaries are the last stars of our sample that we observed with t...

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Veröffentlicht in:	Astronomische Nachrichten 2024-01, Vol.345 (1)
Hauptverfasser:	Dennis, Jack, Missael Alejandro Hernández Huerta, Faiber Danilo Rosas‐Portilla, Klaus‐Peter Schröder
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Sprache:	eng
Schlagworte:	Binary stars Hertzsprung-Russell diagram Orbits Parameters Radial velocity Stellar evolution
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creator	Dennis, Jack Missael Alejandro Hernández Huerta Faiber Danilo Rosas‐Portilla Klaus‐Peter Schröder
description	We present an analysis of nine bright spectroscopic binaries (HD 1585, HD 6613, HD 12390, HD 39923, HD 55201, HD 147430, HD 195543, HD 202699, HD 221643), which have orbital periods of P>500$$ P>500 $$ days. These well‐separated binaries are the last stars of our sample that we observed with the TIGRE telescope obtaining intermediate‐resolution spectra of R≈20,000$$ R\approx \mathrm{20,000} $$. We applied the same method as described in our previous publication of this series. For the analysis of the radial velocity curves, we used the toolkit RadVel, which allowed us to determine all orbital parameters. Recently published orbital solutions of some systems from Gaia DR3 agree with our results. However, our solutions have much smaller uncertainties. We determined the basic stellar parameters of the primary stars with our automatic script using iSpec. The parameter determination allowed us to place all nine stars in the Hertzsprung–Russell diagram. We found that all stars have already evolved to the giant phase. A comparison with stellar evolution tracks of the Eggleton code was applied to determine the stellar masses and ages. As a result of our analysis, we were able to estimate the masses of the secondary stars and the orbital inclinations of the binary systems.
doi_str_mv	10.1002/asna.20230123
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Recently published orbital solutions of some systems from Gaia DR3 agree with our results. However, our solutions have much smaller uncertainties. We determined the basic stellar parameters of the primary stars with our automatic script using iSpec. The parameter determination allowed us to place all nine stars in the Hertzsprung–Russell diagram. We found that all stars have already evolved to the giant phase. A comparison with stellar evolution tracks of the Eggleton code was applied to determine the stellar masses and ages. 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We determined the basic stellar parameters of the primary stars with our automatic script using iSpec. The parameter determination allowed us to place all nine stars in the Hertzsprung–Russell diagram. We found that all stars have already evolved to the giant phase. A comparison with stellar evolution tracks of the Eggleton code was applied to determine the stellar masses and ages. As a result of our analysis, we were able to estimate the masses of the secondary stars and the orbital inclinations of the binary systems.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/asna.20230123</doi></addata></record>
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title	Bright spectroscopic binaries: III. Binary systems with orbital periods of P>500days
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