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A model for cosmological simulations of galaxy formation physics

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arxiv 1305.2913 v3 pith:J766AE5C submitted 2013-05-13 astro-ph.CO

A model for cosmological simulations of galaxy formation physics

classification astro-ph.CO
keywords feedbackformationmassmodelstellargalaxystarhaloes
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a new comprehensive model of the physics of galaxy formation designed for large-scale hydrodynamical simulations of structure formation using the moving mesh code AREPO. Our model includes primordial and metal line cooling with self-shielding corrections, stellar evolution and feedback processes, gas recycling, chemical enrichment, a novel subgrid model for the metal loading of outflows, black hole (BH) seeding, BH growth and merging procedures, quasar- and radio-mode feedback, and a prescription for radiative electro-magnetic (EM) feedback from active galactic nuclei (AGN). The metal mass loading of outflows can be adjusted independently of the wind mass loading. This is required to simultaneously reproduce the stellar mass content of low mass haloes and their gas oxygen abundances. Radiative EM AGN feedback is implemented assuming an average spectral energy distribution and a luminosity-dependent scaling of obscuration effects. This form of feedback suppresses star formation more efficiently than continuous thermal quasar-mode feedback alone, but is less efficient than mechanical radio-mode feedback in regulating star formation in massive haloes. We contrast simulation predictions for different variants of our galaxy formation model with key observations. Our best match model reproduces, among other things, the cosmic star formation history, the stellar mass function, the stellar mass - halo mass relation, g-, r-, i-, z-band SDSS galaxy luminosity functions, and the Tully-Fisher relation. We can achieve this success only if we invoke very strong forms of stellar and AGN feedback such that star formation is adequately reduced in both low and high mass systems. In particular, the strength of radio-mode feedback needs to be increased significantly compared to previous studies to suppress efficient cooling in massive, metal-enriched haloes.

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Cited by 32 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

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  4. Hidden Monsters with SPHEREx I: A goldmine for heavily reddened quasars at cosmic noon

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  14. The dependence of Circumgalactic Medium properties on halo assembly histories in the IllustrisTNG simulations

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  15. The PICO-Cluster Project: presenting the galaxy cluster sample and studying magnetic field growth, Faraday rotation and Braginskii heating

    astro-ph.GA 2026-06 unverdicted novelty 5.0

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  18. Learning the Universe at High Redshifts: Impact of Accretion Modeling on Early Black Hole Growth

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    Simulations show heavy-seed formation with BH-BH mergers or Bondi accretion under weak feedback can assemble 10^6-10^7 solar mass black holes at z greater than or equal to 9.

  19. Pressure-regulated feedback-modulated star formation as a subgrid model for galaxy formation simulations

    astro-ph.GA 2026-06 unverdicted novelty 5.0

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    In TNG50, compact dwarf satellites (log M_star 8.4-9.2) form via DM-rich gas inflows in low-merger environments, tidal stripping for DM-poor cases, and ram-pressure starbursts for some metal-rich ones.

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    Multiple galaxy formation simulations show that low-mass quenched galaxies at z>3 are predominantly environmentally quenched satellites, often only temporarily so, and match JWST observations.

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  27. Learning the Universe with the 2nd Generation of CAMELS: Varying 35 parameters of the IllustrisTNG model in (50Mpc/h)^3 boxes

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  31. Probing the Hot Gaseous Halos of Milky Way-like Galaxies in the TNG50 simulation

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  32. Self-regulated galaxy evolution within a self-consistently varying galaxy-wide IMF

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