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Entree


Decretion disc evolution and neutron star accretion in short-period eccentric Be/X-ray binaries

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Autor(es):
Rast, R. G. ; Jones, C. E. ; Suffak, M. W. ; Carciofi, A. C.
Número total de Autores: 4
Tipo de documento: Artigo Científico
Fonte: Monthly Notices of the Royal Astronomical Society; v. 537, n. 4, p. 19-pg., 2025-02-22.
Resumo

We examine Be star discs in highly eccentric Be/X-ray systems. We use a three-dimensional smoothed particle hydrodynamics code to model the structure of the Be star disc and investigate its interactions with the secondary star over time. We use system parameters consistent with the eccentric, short-period (P approximate to 16 d) Be/X-ray binary A0538-66 as the basis for our models. We explore a range of system geometries by incrementally varying the misalignment angle of the neutron star's orbital plane with respect to the primary star's equatorial plane to cover a complete range from coplanar prograde to coplanar retrograde. For all simulations, we follow the evolution of the disc's total mass and angular momentum as well as the average eccentricity and inclination with respect to the equatorial planes of both the primary and secondary. We also determine the neutron star accretion rates. We find that the high eccentricity of the binary orbit causes all calculated disc parameters to vary with orbital phase in all models. The amplitude of these variations is negatively correlated with misalignment angle for models with misalignment angles less than 90(degrees), and positively correlated for models with misalignment angles greater than 90(degrees). Accretion rates are affected by the number of particles the neutron star interacts with as well as the length of the interaction time between the particles and the neutron star. We find that accretion rates are largest for models with misalignment angles less than 90(degrees), and smaller for models with those greater than 90(degrees). (AU)

Processo FAPESP: 19/13354-1 - Discos de decréscimo e outflows em torno de estrelas em rápida rotação
Beneficiário:Alex Cavaliéri Carciofi
Modalidade de apoio: Auxílio à Pesquisa - Regular
Processo FAPESP: 18/04055-8 - Espectroscopia de alta precisão: das primeiras estrelas aos planetas
Beneficiário:Jorge Luis Melendez Moreno
Modalidade de apoio: Auxílio à Pesquisa - Temático