Understanding the Angular Momentum Evolution of T Tauri and Herbig Ae/Be Stars

We investigate a sample of six Herbig Ae/Be stars belonging to the Orion OB1 association, as well as 73 low-mass objects, members of the σ Orionis cluster, in order to explore the angular momentum evolution at early stages of evolution, and its possible connection with main-sequence Ap/Bp magnetic s...

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Veröffentlicht in:	The Astronomical journal 2021-09, Vol.162 (3), p.90
Hauptverfasser:	Pinzón, Giovanni, Hernández, Jesús, Serna, Javier, García, Alexandra, Manzo-Martínez, Ezequiel, Roman-Lopes, Alexandre, Román-Zúñiga, Carlos G., Batista, Maria Gracia, Ramírez-Vélez, Julio, Osorio, Yeisson, Avendaño, Ronald
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Sprache:	eng
Schlagworte:	ANGULAR MOMENTUM Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY B stars CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Deposition Herbig Ae/Be stars Interstellar magnetic fields MAGNETIC FIELDS MAGNETIC STARS MAIN SEQUENCE STARS MOMENT OF INERTIA Moments of inertia Pre-main sequence stars PROTOSTARS ROTATION Rotational spectra Sigma Orionis SPECTRA Star clusters STAR MODELS Stars Stellar accretion disks Stellar age Stellar evolution Stellar magnetic fields Stellar properties Stellar rotation STELLAR WINDS T Tauri stars Young stellar objects
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creator	Pinzón, Giovanni Hernández, Jesús Serna, Javier García, Alexandra Manzo-Martínez, Ezequiel Roman-Lopes, Alexandre Román-Zúñiga, Carlos G. Batista, Maria Gracia Ramírez-Vélez, Julio Osorio, Yeisson Avendaño, Ronald
description	We investigate a sample of six Herbig Ae/Be stars belonging to the Orion OB1 association, as well as 73 low-mass objects, members of the σ Orionis cluster, in order to explore the angular momentum evolution at early stages of evolution, and its possible connection with main-sequence Ap/Bp magnetic stars. Using FIES and HECTOCHELLE spectra, we obtain projected rotational velocities through two independent methods. Individual masses, radii, and ages are computed using evolutionary models, distance, and cluster extinction. Under the assumption that similar physical processes operate in both T Tauri and Herbig Ae/Be stars, we construct snapshots of the protostar’s rotation against mass during the first 10 Myr with the aid of a rotational model that includes a variable disk lifetime, changes in the stellar moment of inertia, a dipolar magnetic field with variable strength, and angular momentum loss through stellar winds powered by accretion. We use these snapshots, as well as the rotational data, to infer a plausible scenario for the angular momentum evolution. We find that magnetic field strengths of a few kilo-Gauss at 3 Myr are required to match the rotational velocities of both groups of stars. Models with masses between 2 M ⊙ and 3 M ⊙ display larger angular momentum values by a factor of ∼3, in comparison to stars of similar spectral types on the main sequence. Even though some quantitative estimates on this dramatic decrease with age for Ap/Bp magnetic main-sequence stars are presented, the results obtained for the angular momentum evolution do not explain their low rotation rates.
doi_str_mv	10.3847/1538-3881/ac04ae
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Using FIES and HECTOCHELLE spectra, we obtain projected rotational velocities through two independent methods. Individual masses, radii, and ages are computed using evolutionary models, distance, and cluster extinction. Under the assumption that similar physical processes operate in both T Tauri and Herbig Ae/Be stars, we construct snapshots of the protostar’s rotation against mass during the first 10 Myr with the aid of a rotational model that includes a variable disk lifetime, changes in the stellar moment of inertia, a dipolar magnetic field with variable strength, and angular momentum loss through stellar winds powered by accretion. We use these snapshots, as well as the rotational data, to infer a plausible scenario for the angular momentum evolution. We find that magnetic field strengths of a few kilo-Gauss at 3 Myr are required to match the rotational velocities of both groups of stars. Models with masses between 2 M ⊙ and 3 M ⊙ display larger angular momentum values by a factor of ∼3, in comparison to stars of similar spectral types on the main sequence. Even though some quantitative estimates on this dramatic decrease with age for Ap/Bp magnetic main-sequence stars are presented, the results obtained for the angular momentum evolution do not explain their low rotation rates.</description><identifier>ISSN: 0004-6256</identifier><identifier>ISSN: 1538-3881</identifier><identifier>EISSN: 1538-3881</identifier><identifier>DOI: 10.3847/1538-3881/ac04ae</identifier><language>eng</language><publisher>Madison: The American Astronomical Society</publisher><subject>ANGULAR MOMENTUM ; Astronomy ; ASTROPHYSICS, COSMOLOGY AND ASTRONOMY ; B stars ; CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ; Deposition ; Herbig Ae/Be stars ; Interstellar magnetic fields ; MAGNETIC FIELDS ; MAGNETIC STARS ; MAIN SEQUENCE STARS ; MOMENT OF INERTIA ; Moments of inertia ; Pre-main sequence stars ; PROTOSTARS ; ROTATION ; Rotational spectra ; Sigma Orionis ; SPECTRA ; Star clusters ; STAR MODELS ; Stars ; Stellar accretion disks ; Stellar age ; Stellar evolution ; Stellar magnetic fields ; Stellar properties ; Stellar rotation ; STELLAR WINDS ; T Tauri stars ; Young stellar objects</subject><ispartof>The Astronomical journal, 2021-09, Vol.162 (3), p.90</ispartof><rights>2021. 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J</addtitle><description>We investigate a sample of six Herbig Ae/Be stars belonging to the Orion OB1 association, as well as 73 low-mass objects, members of the σ Orionis cluster, in order to explore the angular momentum evolution at early stages of evolution, and its possible connection with main-sequence Ap/Bp magnetic stars. Using FIES and HECTOCHELLE spectra, we obtain projected rotational velocities through two independent methods. Individual masses, radii, and ages are computed using evolutionary models, distance, and cluster extinction. Under the assumption that similar physical processes operate in both T Tauri and Herbig Ae/Be stars, we construct snapshots of the protostar’s rotation against mass during the first 10 Myr with the aid of a rotational model that includes a variable disk lifetime, changes in the stellar moment of inertia, a dipolar magnetic field with variable strength, and angular momentum loss through stellar winds powered by accretion. We use these snapshots, as well as the rotational data, to infer a plausible scenario for the angular momentum evolution. We find that magnetic field strengths of a few kilo-Gauss at 3 Myr are required to match the rotational velocities of both groups of stars. Models with masses between 2 M ⊙ and 3 M ⊙ display larger angular momentum values by a factor of ∼3, in comparison to stars of similar spectral types on the main sequence. 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Under the assumption that similar physical processes operate in both T Tauri and Herbig Ae/Be stars, we construct snapshots of the protostar’s rotation against mass during the first 10 Myr with the aid of a rotational model that includes a variable disk lifetime, changes in the stellar moment of inertia, a dipolar magnetic field with variable strength, and angular momentum loss through stellar winds powered by accretion. We use these snapshots, as well as the rotational data, to infer a plausible scenario for the angular momentum evolution. We find that magnetic field strengths of a few kilo-Gauss at 3 Myr are required to match the rotational velocities of both groups of stars. Models with masses between 2 M ⊙ and 3 M ⊙ display larger angular momentum values by a factor of ∼3, in comparison to stars of similar spectral types on the main sequence. 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subjects	ANGULAR MOMENTUM Astronomy ASTROPHYSICS, COSMOLOGY AND ASTRONOMY B stars CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Deposition Herbig Ae/Be stars Interstellar magnetic fields MAGNETIC FIELDS MAGNETIC STARS MAIN SEQUENCE STARS MOMENT OF INERTIA Moments of inertia Pre-main sequence stars PROTOSTARS ROTATION Rotational spectra Sigma Orionis SPECTRA Star clusters STAR MODELS Stars Stellar accretion disks Stellar age Stellar evolution Stellar magnetic fields Stellar properties Stellar rotation STELLAR WINDS T Tauri stars Young stellar objects
title	Understanding the Angular Momentum Evolution of T Tauri and Herbig Ae/Be Stars
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