We report the discovery and analysis of only the third Lyman-limit system in which a highquality resolution, echelle spectrum reveals no metal absorption lines, implying a metallicity ≲1/10 000 solar. Our HIRES spectrum of the background quasar, PSS1723+2243, provides a neutral hydrogen column density range for LLS1723 of NHI = 1017.9-18.3 cm-2 at redshift zabs ≈ 4.391. The lower bound on this range and the lack of detectable absorption from the strongest low-ionization metal lines are combined in photoionization models to infer a robust, conservative upper limit on themetallicity: log (Z/Z⊙)<-4.14 at 95 per cent confidence. Such a low metallicity raises the question of LLS1723's origin and enrichment history. Previous simulations of the circumgalactic medium imply that LLS1723 is a natural candidate for a cold gas stream accreting towards a galaxy. Alternatively, LLS1723 may represent a high-density portion of the intergalactic medium containing either pristine gas - unpolluted by stellar debris for 1.4 Gyr after the big bang - or the remnants of low-energy supernovae from (likely low-mass) Population III stars. Evidence for the circumgalactic scenario could be obtained by mapping the environment around LLS1723 with optical integral-field spectroscopy. The intergalactic possibilities highlight the need for - and opportunity to test - simulations of the frequency with which such high-density, very low metallicity systems arise in the intergalactic medium.

Robert, P., Murphy, M., O'Meara, J., Crighton, N., Fumagalli, M. (2019). Exploring the origins of a new, apparently metal-free gas cloud at z = 4.4. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 483(2), 2736-2747 [10.1093/mnras/sty3287].

Exploring the origins of a new, apparently metal-free gas cloud at z = 4.4

Fumagalli, M
2019

Abstract

We report the discovery and analysis of only the third Lyman-limit system in which a highquality resolution, echelle spectrum reveals no metal absorption lines, implying a metallicity ≲1/10 000 solar. Our HIRES spectrum of the background quasar, PSS1723+2243, provides a neutral hydrogen column density range for LLS1723 of NHI = 1017.9-18.3 cm-2 at redshift zabs ≈ 4.391. The lower bound on this range and the lack of detectable absorption from the strongest low-ionization metal lines are combined in photoionization models to infer a robust, conservative upper limit on themetallicity: log (Z/Z⊙)<-4.14 at 95 per cent confidence. Such a low metallicity raises the question of LLS1723's origin and enrichment history. Previous simulations of the circumgalactic medium imply that LLS1723 is a natural candidate for a cold gas stream accreting towards a galaxy. Alternatively, LLS1723 may represent a high-density portion of the intergalactic medium containing either pristine gas - unpolluted by stellar debris for 1.4 Gyr after the big bang - or the remnants of low-energy supernovae from (likely low-mass) Population III stars. Evidence for the circumgalactic scenario could be obtained by mapping the environment around LLS1723 with optical integral-field spectroscopy. The intergalactic possibilities highlight the need for - and opportunity to test - simulations of the frequency with which such high-density, very low metallicity systems arise in the intergalactic medium.
Articolo in rivista - Articolo scientifico
Galaxies: haloes; Intergalactic medium; Line: profiles; Quasars: absorption lines
English
2019
483
2
2736
2747
reserved
Robert, P., Murphy, M., O'Meara, J., Crighton, N., Fumagalli, M. (2019). Exploring the origins of a new, apparently metal-free gas cloud at z = 4.4. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 483(2), 2736-2747 [10.1093/mnras/sty3287].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/258679
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