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Star Formation Isochrone Surfaces: Clues on Star Formation Quenching in Dense Environments

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arxiv 1412.1119 v1 pith:ZCEUTZRB submitted 2014-12-02 astro-ph.GA astro-ph.CO

Star Formation Isochrone Surfaces: Clues on Star Formation Quenching in Dense Environments

classification astro-ph.GA astro-ph.CO
keywords surfacesformationstaraccretingcolor-densitycomplexdensegalaxies
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The star formation history of galaxies is a complex process usually considered to be stochastic in nature, for which we can only give average descriptions such as the color-density relation. In this work we follow star-forming gas particles in a hydrodynamical N-body simulation back in time in order to study their initial spatial configuration. By keeping record of the time when a gas particle started forming stars we can produce gas-star isochrone surfaces delineating the surfaces of accreting gas that begin producing stars at different times. These accretion surfaces are closely packed inside dense regions, intersecting each other, and as a result galaxies inside proto-clusters stop accreting gas early, naturally explaining the color dependence on density. The process described here has a purely gravitational / geometrical origin, arguably operating at a more fundamental level than complex processes such as AGN and supernovae, and providing a conceptual origin for the color-density relation.

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