Article Dans Une Revue Astronomy & Astrophysics - A&A Année : 2025

The MeerKAT Absorption Line Survey (MALS) data release 3: Cold atomic gas associated with the Milky Way

J. Kerp
  • Fonction : Auteur
S. Balashev
D. Borgaonkar
  • Fonction : Auteur
K. Emig
J. Jose
H.-R. Klöckner
K. Moodley
J. Wagenveld

Résumé

Aims . We present results of a blind search for Galactic H I 21-cm absorption lines toward 19 130 radio sources brighter than 1 mJy at 1.4 GHz, using 390 pointings of the MeerKAT Absorption Line Survey (MALS), each pointing centered on a source brighter than 200 mJy. The spectral resolution, the median spatial resolution, and the median 3 σ optical depth sensitivity ( τ 3 σ ) are 5.5 km s −1 , ~ 9″, and 0.381, respectively. We used the spectra of the central sources and the other off-axis radio sources within the telescope pointings to constrain the properties of H I gas in the local interstellar medium (LISM) of the Galaxy. Methods . Through an automated procedure, we detected 3640 H I absorption features over ~800 deg 2 . This represents the largest Galactic H I absorption line catalog to date. We used H I 21-cm emission line measurements from HI4PI, an all sky single-dish survey, and far-infrared maps from COBE/DIRBE and IRAS/ISSA in addition to the Gaussian decomposition of the HI4PI into cold (CNM), lukewarm (LNM), and warm (WNM) neutral medium phases for our analyses. Results . We find a strong linear correlation with a coefficient of 0.84 between the H I 21-cm emission line column densities ( N HI ) and the visual extinction ( A V ) measured toward the pointing center, along with the confinement of the absorption features to a narrow range in radial velocities (−25< v LSR [km s −1 ]<+25). This implies that the detected absorption lines form a homogeneous sample of H I clouds in the LISM. For central sight lines (median τ 3 σ =0.008), the detection rate is 82±5%. All the central MALS sight lines with H I absorption have N HI (CNM) + N HI (LNM) ≥ N HI (WNM). The H I 21-cm absorption optical depth is linearly correlated to N HI and A V , with a correlation coefficient in excess of 0.8 up to N HI ≃ 2 · 10 21 cm −2 or, equivalently, A V ≃ 1 mag. Above this threshold, A V traces the total hydrogen content, and consequently, A V and the single-dish N HI scale, differently. The slopes of N HI distributions of central sight lines with H I 21-cm absorption detections and non-detection differ at >2 σ . A similar difference is observed for H 2 detections and non-detections in damped Lyman-alpha systems at z ≳1.8, implying that turbulence-driven WNM-to-CNM conversion is the common governing factor for the presence of H I 21-cm and H 2 absorption. Through a comparison of central and off-axis absorption features, we find the optical depth variations (Δ τ ) to be higher for pointings centered on regions with a higher N HI and CNM fraction. However, no such dependence is observed for the covering fraction of the absorbing structures over 0.1–10 pc. The slope (2.327 ± 0.153) of root mean square (rms) fluctuations in optical depth variations in the quiescent gas associated with LISM is shallower than the earlier measurements in the disk. The densities (20–30 cm −3 ) inferred from |Δ τ | at the median separation (1.5 pc) of the sample are typical of the CNM values. The negligible (median ~0 km s −1 ) velocity shifts between central and off-axis absorbers are in line with the hypothesis that the CNM/LNM clouds freeze out of the extended WNM phase.

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hal-05349113 , version 1 (05-11-2025)

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N. Gupta, J. Kerp, S. Balashev, A. Morelli, F. Combes, et al.. The MeerKAT Absorption Line Survey (MALS) data release 3: Cold atomic gas associated with the Milky Way. Astronomy & Astrophysics - A&A, 2025, 698, pp.A120. ⟨10.1051/0004-6361/202452407⟩. ⟨hal-05349113⟩
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