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Main Authors: de la Casa, Clara C., Hess, Kelley M., Verdes-Montenegro, Lourdes, Kotulla, Ralf, Chen, Hao, Jarrett, Tom H., Cluver, Michelle E., De Daniloff, Simon B., Gendron-Marsolais, Marie-Lou, Carignan, Claude, Gallagher III, John S., Kraan-Korteweg, Renée C., Ianjamasimanana, Roger
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.10222
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author de la Casa, Clara C.
Hess, Kelley M.
Verdes-Montenegro, Lourdes
Kotulla, Ralf
Chen, Hao
Jarrett, Tom H.
Cluver, Michelle E.
De Daniloff, Simon B.
Gendron-Marsolais, Marie-Lou
Carignan, Claude
Gallagher III, John S.
Kraan-Korteweg, Renée C.
Ianjamasimanana, Roger
author_facet de la Casa, Clara C.
Hess, Kelley M.
Verdes-Montenegro, Lourdes
Kotulla, Ralf
Chen, Hao
Jarrett, Tom H.
Cluver, Michelle E.
De Daniloff, Simon B.
Gendron-Marsolais, Marie-Lou
Carignan, Claude
Gallagher III, John S.
Kraan-Korteweg, Renée C.
Ianjamasimanana, Roger
contents We present a new catalog of 196 galaxies of the nearby Hydra I cluster out to $\sim$1.75$\rm r_{200}$, consisting of broad u,g,r,i,z along with narrowband H$α$ measurements. These deep optical images were obtained with the DECam camera (CTIO) and reach down to a surface brightness limit of $μ( 3σ;10''\times10'')$=26.9 mag $\rm arcsec^2$ in the g band. We also report the HI properties for 89 cluster members detected with MeerKAT. A color magnitude diagram (CMD) shows a bimodal distribution typical of a cluster population, more evolved than those found in isolation. We combine optical H$α$ and WISE infrared data to compare the star formation history at two distinct timescales. Differences in the star forming activity depicted by both populations manifest as starburst in 24 found members. Of these, 18 starburst galaxies have neutral gas measurements, and show disturbed HI disks that suggest an environmentally-triggered boost in star formation within the last 10$^7$ yrs. Processes such as ram pressure stripping or tidal interactions may underlie their enhanced star-forming activity and asymmetric disks. Since Hydra's dynamical history is unclear, we examine the spatial and velocity distribution of the sample. We reveal a possible link between the large scale structure feeding the Hydra I cluster and the heightened star-forming activity of the starburst galaxies. This feeding pattern matches the few substructure that has been identified in Hydra in previous works, and may explain its origin. Our results portray a picture of a cluster with an evolved nature, plus a population of new infalling galaxies that manifest the impact of their first contact with the cluster environment through star formation, color, morphology and gas content transformations.
format Preprint
id arxiv_https___arxiv_org_abs_2510_10222
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Starburst galaxies in the Hydra I cluster
de la Casa, Clara C.
Hess, Kelley M.
Verdes-Montenegro, Lourdes
Kotulla, Ralf
Chen, Hao
Jarrett, Tom H.
Cluver, Michelle E.
De Daniloff, Simon B.
Gendron-Marsolais, Marie-Lou
Carignan, Claude
Gallagher III, John S.
Kraan-Korteweg, Renée C.
Ianjamasimanana, Roger
Astrophysics of Galaxies
We present a new catalog of 196 galaxies of the nearby Hydra I cluster out to $\sim$1.75$\rm r_{200}$, consisting of broad u,g,r,i,z along with narrowband H$α$ measurements. These deep optical images were obtained with the DECam camera (CTIO) and reach down to a surface brightness limit of $μ( 3σ;10''\times10'')$=26.9 mag $\rm arcsec^2$ in the g band. We also report the HI properties for 89 cluster members detected with MeerKAT. A color magnitude diagram (CMD) shows a bimodal distribution typical of a cluster population, more evolved than those found in isolation. We combine optical H$α$ and WISE infrared data to compare the star formation history at two distinct timescales. Differences in the star forming activity depicted by both populations manifest as starburst in 24 found members. Of these, 18 starburst galaxies have neutral gas measurements, and show disturbed HI disks that suggest an environmentally-triggered boost in star formation within the last 10$^7$ yrs. Processes such as ram pressure stripping or tidal interactions may underlie their enhanced star-forming activity and asymmetric disks. Since Hydra's dynamical history is unclear, we examine the spatial and velocity distribution of the sample. We reveal a possible link between the large scale structure feeding the Hydra I cluster and the heightened star-forming activity of the starburst galaxies. This feeding pattern matches the few substructure that has been identified in Hydra in previous works, and may explain its origin. Our results portray a picture of a cluster with an evolved nature, plus a population of new infalling galaxies that manifest the impact of their first contact with the cluster environment through star formation, color, morphology and gas content transformations.
title Starburst galaxies in the Hydra I cluster
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2510.10222