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On the Rotation of Supermassive Stars

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arxiv 1711.09916 v1 pith:YHDOOUEF submitted 2017-11-27 astro-ph.SR

On the Rotation of Supermassive Stars

classification astro-ph.SR
keywords supermassiveangularmomentumstarsaccretionrotationcancelscentrifugal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Supermassive stars born from pristine gas in atomically-cooled haloes are thought to be the progenitors of supermassive black holes at high redshifts. However, the way they accrete their mass is still an unsolved problem. In particular, for accretion to proceed, a large amount of angular momentum has to be extracted from the collapsing gas. Here, we investigate the constraints stellar evolution imposes on this angular momentum problem. We present an evolution model of a supermassive Population III star including simultaneously accretion and rotation. We find that, for supermassive stars to form by accretion, the accreted angular momentum has to be about 1% of the Keplerian angular momentum. This tight constraint comes from the $\Omega\Gamma$-limit, at which the combination of radiation pressure and centrifugal force cancels gravity. It implies that supermassive stars are slow rotators, with a surface velocity less than 10-20% of their first critical velocity, at which the centrifugal force alone cancels gravity. At such low velocities, the deformation of the star due to rotation is negligible.

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