The generation of strong magnetic fields during the formation of the first stars

Sharanya Sur; D. R.G. Schleicher; Robi Banerjee; Christoph Federrath; Ralf S. Klessen

doi:10.1088/2041-8205/721/2/L134

The generation of strong magnetic fields during the formation of the first stars

Sharanya Sur^*, D. R.G. Schleicher, Robi Banerjee, Christoph Federrath, Ralf S. Klessen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

163 Citations (Scopus)

Abstract

Cosmological hydrodynamical simulations of primordial star formation suggest that the gas within the first starforming halos is turbulent. This has strong implications on the subsequent evolution, in particular on the generation of magnetic fields. Using high-resolution numerical simulations, we show that in the presence of turbulence, weak seed magnetic fields are exponentially amplified by the small-scale dynamo during the formation of the first stars. We conclude that strong magnetic fields are generated during the birth of the first stars in the universe, potentially modifying the mass distribution of these stars and influencing the subsequent cosmic evolution. We find that the presence of the small-scale turbulent dynamo can only be identified in numerical simulations in which the turbulent motions in the central core are resolved with at least 32 grid cells.

Original language	English
Pages (from-to)	L134-L138
Journal	Astrophysical Journal Letters
Volume	721
Issue number	2 PART 2
DOIs	https://doi.org/10.1088/2041-8205/721/2/L134
Publication status	Published - 1 Oct 2010
Externally published	Yes

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title = "The generation of strong magnetic fields during the formation of the first stars",

abstract = "Cosmological hydrodynamical simulations of primordial star formation suggest that the gas within the first starforming halos is turbulent. This has strong implications on the subsequent evolution, in particular on the generation of magnetic fields. Using high-resolution numerical simulations, we show that in the presence of turbulence, weak seed magnetic fields are exponentially amplified by the small-scale dynamo during the formation of the first stars. We conclude that strong magnetic fields are generated during the birth of the first stars in the universe, potentially modifying the mass distribution of these stars and influencing the subsequent cosmic evolution. We find that the presence of the small-scale turbulent dynamo can only be identified in numerical simulations in which the turbulent motions in the central core are resolved with at least 32 grid cells.",

keywords = "Cosmology: theory, Early universe, Magnetic fields, Methods: numerical, Stars: formation, Turbulence",

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T1 - The generation of strong magnetic fields during the formation of the first stars

AU - Sur, Sharanya

AU - Schleicher, D. R.G.

AU - Banerjee, Robi

AU - Federrath, Christoph

AU - Klessen, Ralf S.

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N2 - Cosmological hydrodynamical simulations of primordial star formation suggest that the gas within the first starforming halos is turbulent. This has strong implications on the subsequent evolution, in particular on the generation of magnetic fields. Using high-resolution numerical simulations, we show that in the presence of turbulence, weak seed magnetic fields are exponentially amplified by the small-scale dynamo during the formation of the first stars. We conclude that strong magnetic fields are generated during the birth of the first stars in the universe, potentially modifying the mass distribution of these stars and influencing the subsequent cosmic evolution. We find that the presence of the small-scale turbulent dynamo can only be identified in numerical simulations in which the turbulent motions in the central core are resolved with at least 32 grid cells.

AB - Cosmological hydrodynamical simulations of primordial star formation suggest that the gas within the first starforming halos is turbulent. This has strong implications on the subsequent evolution, in particular on the generation of magnetic fields. Using high-resolution numerical simulations, we show that in the presence of turbulence, weak seed magnetic fields are exponentially amplified by the small-scale dynamo during the formation of the first stars. We conclude that strong magnetic fields are generated during the birth of the first stars in the universe, potentially modifying the mass distribution of these stars and influencing the subsequent cosmic evolution. We find that the presence of the small-scale turbulent dynamo can only be identified in numerical simulations in which the turbulent motions in the central core are resolved with at least 32 grid cells.

KW - Cosmology: theory

KW - Early universe

KW - Magnetic fields

KW - Methods: numerical

KW - Stars: formation

KW - Turbulence

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JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

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The generation of strong magnetic fields during the formation of the first stars

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