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Autore principale: Staritsin, Evgeny
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2604.20352
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author Staritsin, Evgeny
author_facet Staritsin, Evgeny
contents Spin-up of a mass gaining component in a binary system is considered taking into account the mass loss from the system during the mass transfer between components in the Hertzsprung gap. The angular momentum that the accreting component gains during mass transfer depends on the increase in the mass of the component at this stage. The increase in the mass was considered over a broad range, from 5% to 100%. The case is considered when, after mass transfer, the mass of the accreting component has a value of 16 M_solar, typical for early Be stars. The transfer of angular momentum within the accreting component occurs due to meridional circulation and shear turbulence. If the accreted mass accounts for more than 30%, the accretor obtains a rotation typical of early Be-stars. This conclusion does not depend on: a) the rotation of the accreting component before mass transfer, b) the amount of angular momentum coming from the boundary layer located between the star and the accretion disk, c) a possible decrease in the angular velocity of the disk below the Keplerian value, d) the efficiency of turbulence in the interior of the accretor.
format Preprint
id arxiv_https___arxiv_org_abs_2604_20352
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Formation of classical Be-stars of the early spectral subclass in the case of nonconservative mass transfer in close binary systems
Staritsin, Evgeny
Solar and Stellar Astrophysics
Spin-up of a mass gaining component in a binary system is considered taking into account the mass loss from the system during the mass transfer between components in the Hertzsprung gap. The angular momentum that the accreting component gains during mass transfer depends on the increase in the mass of the component at this stage. The increase in the mass was considered over a broad range, from 5% to 100%. The case is considered when, after mass transfer, the mass of the accreting component has a value of 16 M_solar, typical for early Be stars. The transfer of angular momentum within the accreting component occurs due to meridional circulation and shear turbulence. If the accreted mass accounts for more than 30%, the accretor obtains a rotation typical of early Be-stars. This conclusion does not depend on: a) the rotation of the accreting component before mass transfer, b) the amount of angular momentum coming from the boundary layer located between the star and the accretion disk, c) a possible decrease in the angular velocity of the disk below the Keplerian value, d) the efficiency of turbulence in the interior of the accretor.
title Formation of classical Be-stars of the early spectral subclass in the case of nonconservative mass transfer in close binary systems
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2604.20352