Add to ORKGH2 formation in metal-free gas occurs via the intermediate H- or H2+ ions. Destruction of these ions by photodissociation therefore serves to suppress H2 formation. In this paper, I highlight the fact that several processes that occur in ionized primordial gas produce photons energetic enough to photodissociate H- or H2+ and outline how to compute the photodissociation rates produced by a particular distribution of ionized gas. I also show that there are circumstances of interest, such as during the growth of HII regions around the first stars, in which this previously overlooked form of radiative feedback is of considerable importance
We discuss the theory of coupled ionization--dissociation fronts produced when molecular clouds are ...
The cosmological recombination ofHand He at z103 and the formation of H2 during the dark ages produc...
We study the formation of molecular hydrogen in cooling gas behind shocks produced during the blow-a...
We investigate the ability of primordial gas clouds to retain molecular hydrogen (H_2) during the in...
In primordial gas, molecular hydrogen forms primarily through associative detachment of H- and H, th...
The formation of the first galaxies is strongly affected by the radiative feedback from the first ge...
We study the effect of starlight from the first stars on the ability of other minihaloes in their ne...
Previous calculations of the pregalactic chemistry have found that a small amount of H_2, x[H_2]=n[H...
Non-thermal photons deriving from radiative transitions among the internal ladder of atoms and molec...
The first sources of ionizing radiation to condense out of the dark and neutral IGM sent ionization ...
International audienceContext. The atomic-to-molecular hydrogen (H/H2) transition has been extensive...
The first, self-consistent calculations are presented of the cosmological, H2-dissociating UV backgr...
Original article can be found at: http://adsabs.harvard.edu/basic_search.html Copyright Royal Astron...
We investigate the role of the H+2 channel on H2 molecule formation during the collapse of primordia...
We have performed the first energy-resolved measurement of the associative detachment (AD) reaction ...
We discuss the theory of coupled ionization--dissociation fronts produced when molecular clouds are ...
The cosmological recombination ofHand He at z103 and the formation of H2 during the dark ages produc...
We study the formation of molecular hydrogen in cooling gas behind shocks produced during the blow-a...
We investigate the ability of primordial gas clouds to retain molecular hydrogen (H_2) during the in...
In primordial gas, molecular hydrogen forms primarily through associative detachment of H- and H, th...
The formation of the first galaxies is strongly affected by the radiative feedback from the first ge...
We study the effect of starlight from the first stars on the ability of other minihaloes in their ne...
Previous calculations of the pregalactic chemistry have found that a small amount of H_2, x[H_2]=n[H...
Non-thermal photons deriving from radiative transitions among the internal ladder of atoms and molec...
The first sources of ionizing radiation to condense out of the dark and neutral IGM sent ionization ...
International audienceContext. The atomic-to-molecular hydrogen (H/H2) transition has been extensive...
The first, self-consistent calculations are presented of the cosmological, H2-dissociating UV backgr...
Original article can be found at: http://adsabs.harvard.edu/basic_search.html Copyright Royal Astron...
We investigate the role of the H+2 channel on H2 molecule formation during the collapse of primordia...
We have performed the first energy-resolved measurement of the associative detachment (AD) reaction ...
We discuss the theory of coupled ionization--dissociation fronts produced when molecular clouds are ...
The cosmological recombination ofHand He at z103 and the formation of H2 during the dark ages produc...
We study the formation of molecular hydrogen in cooling gas behind shocks produced during the blow-a...