Star formation in cloud cores-simulations and observations of dense molecular cores and the formation of solar mass stars
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Federrath, Christoph
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Cambridge University Press
Abstract
Star formation is inefficient. Recent advances in numerical simulations and theoretical
models of molecular clouds show that the combined effects of interstellar turbulence, magnetic
fields and stellar feedback can explain the low efficiency of star formation. The star formation
rate is highly sensitive to the driving mode of the turbulence. Solenoidal driving may be more
important in the Central Molecular Zone, compared to more compressive driving agents in spiralam clouds. Both theoretical and observational efforts are underway to determine the dominant
driving mode of turbulence in different Galactic environments. New observations with ALMA,
combined with other instruments such as CARMA, JCMT and the SMA begin to reveal the
magnetic field structure of dense cores and protostellar disks, showing highly complex field
geometries with ordered and turbulent field components. Such complex magnetic fields can give
rise to a range of stellar masses and jet/outflow efficiencies in dense cores and protostellar
accretion disks.
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Proceedings of the International Astronomical Union
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Book Title
Proceeding of the International Astronomical Union: Origins: From the Protosun to the First Steps of Life
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Restricted until
2099-12-31