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Main Authors: Sun, Yu-Zhu, Zhang, Hong-Xin, Brinks, Elias, Smith, Rory, Li, Fujia, Kim, Minsu, Oh, Se-Heon, Lin, Zesen, Kim, Jaebeom, Sun, Weibin, Li, Tie, Côté, Patrick, Boselli, Alessandro, Chen, Lijun, Duc, Pierre-Alain, Paudel, Sanjaya, Taylor, Matthew A., Wang, Kaixiang, Wang, Enci, Zhang, Lanyue, Zhao, Yinghe
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.23232
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author Sun, Yu-Zhu
Zhang, Hong-Xin
Brinks, Elias
Smith, Rory
Li, Fujia
Kim, Minsu
Oh, Se-Heon
Lin, Zesen
Kim, Jaebeom
Sun, Weibin
Li, Tie
Côté, Patrick
Boselli, Alessandro
Chen, Lijun
Duc, Pierre-Alain
Paudel, Sanjaya
Taylor, Matthew A.
Wang, Kaixiang
Wang, Enci
Zhang, Lanyue
Zhao, Yinghe
author_facet Sun, Yu-Zhu
Zhang, Hong-Xin
Brinks, Elias
Smith, Rory
Li, Fujia
Kim, Minsu
Oh, Se-Heon
Lin, Zesen
Kim, Jaebeom
Sun, Weibin
Li, Tie
Côté, Patrick
Boselli, Alessandro
Chen, Lijun
Duc, Pierre-Alain
Paudel, Sanjaya
Taylor, Matthew A.
Wang, Kaixiang
Wang, Enci
Zhang, Lanyue
Zhao, Yinghe
contents The origin of extragalactic, almost dark HI clouds with extreme gas-to-stellar mass ratios remains poorly understood. We investigate the nature and fate of the "almost dark" cloud AGC 226178, projected within the Virgo cluster, with an HI-to-stellar mass ratio of ~1000. We present deep single-dish HI mapping from the Five-hundred-meter Aperture Spherical Telescope (FAST), complemented by high-resolution interferometric data from the Very Large Array (VLA), as part of the Atomic gas in Virgo Interacting Dwarf galaxies (AVID) project. These observations provide the highest-quality HI analysis to date of such a cloud, combining resolution and sensitivity. FAST data reveal a short, low-velocity tail toward the dwarf galaxy VCC 2034, previously proposed as a possible origin for AGC 226178. However, VCC 2034 shows a line-of-sight asymmetric HI feature and cometary morphology indicating a stripping event unrelated to AGC 226178. VLA data reveal a velocity gradient across AGC 226178 and a clumpy internal structure. The velocity dispersion exceeds the thermal linewidth, implying turbulence or unresolved motions. The cloud cannot be gravitationally bound by atomic gas alone. The resolved HI clumps follow standard HI mass-star formation rate and mass-size relations, with those forming stars reaching surface densities above the threshold for self-shielding. We conclude that AGC 226178 is a free-floating HI cloud of unknown origin. The system appears to be in the process of disintegration. It is likely located well outside the Virgo cluster, as the preservation of its extended HI morphology within the cluster environment would otherwise require a substantial reservoir of unseen molecular gas with a mass exceeding that of the observed HI content. While confinement pressure from the hot intracluster medium may aid its stability, it is unlikely to be the dominant factor preventing its disruption.
format Preprint
id arxiv_https___arxiv_org_abs_2506_23232
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unveiling the nature and fate of the almost-dark cloud AGC 226178 through HI mapping
Sun, Yu-Zhu
Zhang, Hong-Xin
Brinks, Elias
Smith, Rory
Li, Fujia
Kim, Minsu
Oh, Se-Heon
Lin, Zesen
Kim, Jaebeom
Sun, Weibin
Li, Tie
Côté, Patrick
Boselli, Alessandro
Chen, Lijun
Duc, Pierre-Alain
Paudel, Sanjaya
Taylor, Matthew A.
Wang, Kaixiang
Wang, Enci
Zhang, Lanyue
Zhao, Yinghe
Astrophysics of Galaxies
The origin of extragalactic, almost dark HI clouds with extreme gas-to-stellar mass ratios remains poorly understood. We investigate the nature and fate of the "almost dark" cloud AGC 226178, projected within the Virgo cluster, with an HI-to-stellar mass ratio of ~1000. We present deep single-dish HI mapping from the Five-hundred-meter Aperture Spherical Telescope (FAST), complemented by high-resolution interferometric data from the Very Large Array (VLA), as part of the Atomic gas in Virgo Interacting Dwarf galaxies (AVID) project. These observations provide the highest-quality HI analysis to date of such a cloud, combining resolution and sensitivity. FAST data reveal a short, low-velocity tail toward the dwarf galaxy VCC 2034, previously proposed as a possible origin for AGC 226178. However, VCC 2034 shows a line-of-sight asymmetric HI feature and cometary morphology indicating a stripping event unrelated to AGC 226178. VLA data reveal a velocity gradient across AGC 226178 and a clumpy internal structure. The velocity dispersion exceeds the thermal linewidth, implying turbulence or unresolved motions. The cloud cannot be gravitationally bound by atomic gas alone. The resolved HI clumps follow standard HI mass-star formation rate and mass-size relations, with those forming stars reaching surface densities above the threshold for self-shielding. We conclude that AGC 226178 is a free-floating HI cloud of unknown origin. The system appears to be in the process of disintegration. It is likely located well outside the Virgo cluster, as the preservation of its extended HI morphology within the cluster environment would otherwise require a substantial reservoir of unseen molecular gas with a mass exceeding that of the observed HI content. While confinement pressure from the hot intracluster medium may aid its stability, it is unlikely to be the dominant factor preventing its disruption.
title Unveiling the nature and fate of the almost-dark cloud AGC 226178 through HI mapping
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2506.23232