Probing galaxy evolution through Hi 21-cm emission and absorption: current status and prospects with square kilometre array

Dutta, Rajeshwari; Kurapati, Sushma; Aditya, J. N. H. S.; Bait, Omkar; Das, Mousumi; Dutta, Prasun; Indulekha, K.; Nandakumar, Meera; Patra, Narendra Nath; Roy, Nirupam; Roychowdhury, Sambit

doi:10.1007/s12036-022-09875-y

Cited by 3 publications

(4 citation statements)

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“…The H I 21 cm absorption lines are powerful tracers of cold gas in the central regions (at parsec scales), close to the central black hole of galaxies and up to tens of kiloparsec. They trace interaction and mergers into galaxy groups as well as the intervening neutral gas clouds in foreground galaxies, tails, and filaments (Morganti & Osterloo 2018;Dutta et al 2022). H I absorption in radio sources is mostly detected against the central regions, allowing us to probe the gas properties in the inner regions of the sources and the AGN structures.…”

Section: Resultsmentioning

confidence: 99%

“…Galaxies such as radio MOHEGs are expected to have lower H I column densities, which make it difficult to detect them in emission surveys with current radio instruments. H I absorption studies against bright radio continuum background can track the neutral hydrogen in galaxies, which otherwise could not be seen in H I emission observations due to the constraints of the achievable sensitivities at larger distances (Morganti & Osterloo 2018;Dutta et al 2022). H I surveys offer substantial advantages to trace the star formation and galaxy evolution from nearby to the distant universe due to their independence of the effects of extinction by dust and color.…”

Section: H I Absorption Surveys and Prospects With Skamentioning

confidence: 99%

“…Gas-rich galaxy disks hold extended atomic gas in their disk regions, which is susceptible to distortions during tidal interactions. The effects of these activities can be studied through observations of the H I 21 cm transition (Yun et al 1994;Noordermeer et al 2005;Chung et al 2009;Brown et al 2017;Dutta et al 2022). Additionally, observations of atomic gas outflows in radio galaxies (RG) suggest that AGN radio jet feedback has a galaxy-scale impact on the host ISM (Morganti et al 2003(Morganti et al , 2005Guillard et al 2012;Schulz et al 2021).…”

Section: Introductionmentioning

confidence: 99%

“…A threshold neutral hydrogen column density of N(H I) ∼5 × 10 20 cm −2 is required to begin with the formation of H 2 , which helps to shield the gas against radiation from UV photons (Stecher & Williams 1967;Hollenbach et al 1971;Federman et al 1979;Kanekar et al 2011). Unlike the H I emission lines, where the flux attenuates with distance, H I absorption features are independent of the distance of the source; rather, they primarily depend on the strength of the background radio continuum, the covering fraction ( f c ) of the source, and the spin temperature T s (K) (Dutta et al 2022). Hence, the H I 21 cm absorption line studies can complement the emission line surveys to trace the evolution of the atomic gas component in and around galaxies.…”

Section: Introductionmentioning

confidence: 99%

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Exploring Neutral Hydrogen in Radio MOlecular Hydrogen Emission Galaxies (MOHEGs) and Prospects with the SKA

Wagh,

Pandey-Pommier,

Roy

et al. 2024

ApJ

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Empirical studies of cold gas content are essential for comprehending the star formation activities and evolution in galaxies. However, it is not straightforward to understand these processes because they depend on various physical properties of the interstellar medium. Massive Faranoff–Riley I/II type radio galaxies rich in molecular hydrogen with lower star formation activities are known as radio molecular hydrogen emission galaxies (MOHEGs). We present a study of neutral hydrogen-gas-associated radio MOHEGs at redshifts <0.2 probed via the H i 21 cm absorption line. Neutral hydrogen is detected in 70% of these galaxies, which are located at a distance of 8–120 kpc from the neighboring galaxies. These galaxies show a scarcity of H i gas as compared to merging galaxies at similar redshifts. We found no strong correlation between N(H i), NH, and the galaxy properties, regardless of whether the H i is assumed to be cold or warm, indicating that the atomic gas probably plays no important role in star formation. The relation between the total hydrogen gas surface density and the star formation surface density deviates from the standard Kennicutt–Schmidt law. Our study highlights the importance of H i studies and offers insights into the role of atomic and molecular hydrogen gas in explaining the properties of these galaxies. In the upcoming H i 21 cm absorption surveys with next-generation radio telescopes such as the Square Kilometre Array and pathfinder instruments, it may be possible to provide better constraints for these correlations.

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Section: Resultsmentioning

confidence: 99%

Section: H I Absorption Surveys and Prospects With Skamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Exploring Neutral Hydrogen in Radio MOlecular Hydrogen Emission Galaxies (MOHEGs) and Prospects with the SKA

Wagh,

Pandey-Pommier,

Roy

et al. 2024

ApJ

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A search for H i absorption in distant star-forming galaxies with ASKAP-FLASH – I. Selection and analysis of the radio sample

Eden,

Sadler,

Pimbblet

et al. 2024

Monthly Notices of the Royal Astronomical Society

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We present and discuss two catalogues of UV-selected (NUV <22.8 mag) galaxies that lie within a 200 deg2 area of sky covered by the ASKAP FLASH survey and have an impact parameter of less than 20 arcsec to a FLASH radio continuum source. These catalogues are designed to enable a future search for 21 cm H i absorption in and around star-forming galaxies at redshift 0.4 < z < 1. We outline the production of this UV-bright dataset, which has optical spectroscopy from the WiggleZ and SDSS surveys and a median redshift of ∼0.6. Analysis of the optical spectra, using multiple diagnostic diagrams, shows that galaxies with an impact parameter of less than 5 arcsec are likely to be physically associated with the radio source and are five times more likely to be an AGN than objects without a radio match. Conversely, objects with impact factors between 5 and 20 arcsec are largely (> 80 percent) star-forming and resemble the overall WiggleZ population. The (g − i) colour evolution with redshift is consistent with a history of active star-formation, but the radio-associated objects are typically redder and have colours similar to high-excitation radio galaxies. The redshift distribution of the two catalogues matches the overall distribution for WiggleZ galaxies, despite their otherwise rare radio properties. These catalogues can be expanded in future as new radio data become available, and a forthcoming paper will present the H i absorption results.

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A Break in the Size–Stellar Mass Relation: Evidence for Quenching and Feedback in Dwarf Galaxies

Chamba,

Marcum,

Saintonge

et al. 2024

ApJ

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Mapping stars and gas in nearby galaxies is fundamental for understanding their growth and the impact of their environment. This issue is addressed by comparing the stellar “edges” of galaxies D stellar, defined as the outermost diameter where in situ star formation significantly drops, with the gaseous distribution parameterized by the neutral atomic hydrogen diameter measured at 1 M ⊙ pc−2, D HI. By sampling a broad H i mass range 105 M ⊙ < M HI < 1011 M ⊙, we find several dwarf galaxies with M HI < 109 M ⊙ from the field and Fornax Cluster that are distinguished by D stellar ≫ D HI. For the cluster dwarfs, the average H i surface density near D stellar is ∼0.3 M ⊙ pc−2, reflecting the impact of quenching and outside-in gas removal from ram pressure and tidal interactions. In comparison, D stellar/D HI ranges between 0.5 and 2 in dwarf field galaxies, consistent with the expectations from stellar feedback. Only more massive disk galaxies in the field can thus be characterized by the common assumption that D stellar ≲ D HI. We discover a break in the D stellar–M ⋆ relation at m break ∼ 4 × 108 M ⊙ that potentially differentiates the low-mass regime, where the influence of stellar feedback and environmental processes more prominently regulates the sizes of nearby galaxies. Our results highlight the importance of combining deep optical and H i imaging for understanding galaxy evolution.

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Probing galaxy evolution through Hi 21-cm emission and absorption: current status and prospects with square kilometre array

Cited by 3 publications

References 430 publications

Exploring Neutral Hydrogen in Radio MOlecular Hydrogen Emission Galaxies (MOHEGs) and Prospects with the SKA

Exploring Neutral Hydrogen in Radio MOlecular Hydrogen Emission Galaxies (MOHEGs) and Prospects with the SKA

A search for H i absorption in distant star-forming galaxies with ASKAP-FLASH – I. Selection and analysis of the radio sample

A Break in the Size–Stellar Mass Relation: Evidence for Quenching and Feedback in Dwarf Galaxies

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