We use three-dimensional hydrodynamic simulations to investigate the effects of a transient photoionizing UV flux on the collapse and cooling of pregalactic clouds. These clouds have masses in the range 105-10 7 M⊙, form at high redshifts (z ≳18), and are assumed to lie within the short-lived cosmological H II regions around the first generation of stars. In addition, we study the combined effects of this transient UV flux and a persistent Lyman-Werner (LW) background (at photon energies below 13.6 eV) from distant sources. In the absence of a LW background, we find that a critical specific intensity of JUV ∼ 0.1 × 10-21 ergs s-1 cm-2 Hz-1 sr -1 demarcates a transition from net negative to positive feedback for the halo population. A weaker UV flux stimulates subsequent star formation inside the fossil H II regions, by enhancing the H2 molecule abundance. A stronger UV flux significantly delays star formation by reducing the gas density, and increasing the cooling time, at the centers of collapsing halos. At a fixed JUV the sign of the feedback also depends strongly on the density of the gas at the time of UV illumination. Regardless of whether the feedback is positive or negative, we find that once the UV flux is turned off, its impact starts to diminish after ∼30% of the Hubble time. In the more realistic case when a LW background is present, with JLW ≳ 0.01 × 10-21 ergs s-1 cm-2 Hz -1 sr-1, strong suppression persists down to the lowest redshift (z = 18) in our simulations. Finally, we find evidence that heating and photoevaporation by the transient UV flux render the ∼ 106 M⊙ halos inside fossil H II regions more vulnerable to subsequent H2 photodissociation by a LW background. © 2006. The American Astronomical Society. All rights reserved.

Ultraviolet Radiative Feedback on High-Redshift Protogalaxies

MESINGER, ANDREI ALBERT;
2006

Abstract

We use three-dimensional hydrodynamic simulations to investigate the effects of a transient photoionizing UV flux on the collapse and cooling of pregalactic clouds. These clouds have masses in the range 105-10 7 M⊙, form at high redshifts (z ≳18), and are assumed to lie within the short-lived cosmological H II regions around the first generation of stars. In addition, we study the combined effects of this transient UV flux and a persistent Lyman-Werner (LW) background (at photon energies below 13.6 eV) from distant sources. In the absence of a LW background, we find that a critical specific intensity of JUV ∼ 0.1 × 10-21 ergs s-1 cm-2 Hz-1 sr -1 demarcates a transition from net negative to positive feedback for the halo population. A weaker UV flux stimulates subsequent star formation inside the fossil H II regions, by enhancing the H2 molecule abundance. A stronger UV flux significantly delays star formation by reducing the gas density, and increasing the cooling time, at the centers of collapsing halos. At a fixed JUV the sign of the feedback also depends strongly on the density of the gas at the time of UV illumination. Regardless of whether the feedback is positive or negative, we find that once the UV flux is turned off, its impact starts to diminish after ∼30% of the Hubble time. In the more realistic case when a LW background is present, with JLW ≳ 0.01 × 10-21 ergs s-1 cm-2 Hz -1 sr-1, strong suppression persists down to the lowest redshift (z = 18) in our simulations. Finally, we find evidence that heating and photoevaporation by the transient UV flux render the ∼ 106 M⊙ halos inside fossil H II regions more vulnerable to subsequent H2 photodissociation by a LW background. © 2006. The American Astronomical Society. All rights reserved.
2006
Cosmology: theory; Early universe; Galaxies: evolution; Galaxies: formation; Galaxies: high-redshift;
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11384/24168
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