Probing evolutionary mechanisms in galaxy clusters: neutral atomic hydrogen in Abell 1367

Scott, T. C.; Bravo-Alfaro, H.; Brinks, E.; Caretta, C. A.; Cortese, Luca; Boselli, A.; Hardcastle, M. J.; Croston, J. H.; Plauchu, I.

doi:10.1111/j.1365-2966.2009.16204.x

Cited by 66 publications

(65 citation statements)

References 80 publications

(183 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Similar results are observed for the Coma cluster (25), in which a 65-kpc tail is seen in the member galaxy NGC 4848, suggesting ram pressure stripping on radial infall of the galaxy on its first passage through the cluster. Long tails of HI gas and ionized gas are also observed in the cluster Abell 1367, revealing galaxies in the process of being stripped-out of their gas (26,27). Kenney and colleagues (24) provide a detailed observational study of the transformation of a Virgo cluster dwarf irregular galaxy into a dwarf elliptical by ram pressure stripping; the observations show a long tail of gas clumps being accelerated by ram pressure and leaving behind streams of new stars, nicely consistent with ram pressure stripping by the intracluster gas.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Gas loss in simulated galaxies as they fall into clusters

Cen

Pop

Bahcall

2014

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

We use high-resolution cosmological hydrodynamic galaxy formation simulations to gain insights into how galaxies lose their cold gas at low redshift as they migrate from the field to the highdensity regions of clusters of galaxies. We find that beyond three cluster virial radii, the fraction of gas-rich galaxies is constant, representing the field. Within three cluster-centric radii, the fraction of gas-rich galaxies declines steadily with decreasing radius, reaching <10% near the cluster center. Our results suggest galaxies start to feel the effect of the cluster environment on their gas content well beyond the cluster virial radius. We show that almost all gas-rich galaxies at the cluster virial radius are falling in for the first time at nearly radial orbits. Furthermore, we find that almost no galaxy moving outward at the cluster virial radius is gas-rich (with a gas-to-baryon ratio greater than 1%). These results suggest that galaxies that fall into clusters lose their cold gas within a single radial round-trip.cosmology | observations | large-scale structure of universe | intergalactic medium I t has long been known that the local environment affects galaxy properties. Earlier work (1)(2)(3)(4) showed that the fraction of early-type galaxies increases dramatically toward the central regions of clusters of galaxies, whereas the less-dense regions of the field are dominated by spiral galaxies. Similarly, the "color-density relation" (5-8) indicates that red, old galaxies are found preferentially in overdense environments, and galaxies with bluer, younger stellar populations are more common in the field. This color bimodality is linked to a transition in star formation rates between the low-density field and the high-density regions inside clusters (4, 9). However, we still do not have a complete picture of the process through which blue, late-type, star-forming galaxies in the field transform into red, early-type galaxies when entering a cluster. We know that cold gas in galaxies is spatially extended and often distributed far beyond the optical disks (10). Cosmologically, some of the cold gas that feeds galaxy formation may come from the intergalactic medium (11,12). Observations suggest that neutral hydrogen feeds galaxies and turns into molecular hydrogen at a high column density of ∼10 22 cm −2 (13), within which star formation is observed to occur. Together, these facts suggest that the amount of neutral hydrogen supply may ultimately set the rate of star formation. The environmental dependence of galaxy properties may thus be related to the availability of cold gas in or around galaxies. This expectation is supported by observations of galaxies in different environments, showing the well-known depletion of both cold gas and star formation toward the high-density central regions of clusters; this is likely caused by ram pressure stripping of the cold gas by the hot intracluster medium (plus additional gravitational interactions) in the dense environments (refs. 14-24 and references therein). Recent deta...

show abstract

Section: Resultsmentioning

confidence: 99%

“…Long tails of HI and ionized gas are observed in galaxies in several nearby clusters, consistent with the description given here (e.g., refs. 21,22,[25][26][27].…”

mentioning

confidence: 99%

Gas loss in simulated galaxies as they fall into clusters

Cen

Pop

Bahcall

2014

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

show abstract

“…Assuming that their speed to the parent galaxy is 1000 km s −1 , they should have survived in the cluster environment for 70 Myrs. As no counterpart is found near the clouds in H I survey of Abell 1367 (Scott et al 2010), it is rather unlikely that the orphan clouds are re-ionized portions of a long tail, such as the long tail of NGC 4388 in the Virgo cluster (Yoshida et al 2002;Oosterloo & van Gorkom 2005).…”

Section: Orphan Cloudsmentioning

confidence: 99%

“…CGCG 097-073 and CGCG 097-079 are well known with their prominent tails (e.g., Gavazzi & Jaffe 1987;Gavazzi 1989;Boselli et al 1994;Gavazzi et al 1995Gavazzi et al , 1998Gavazzi et al , 2001aScott et al 2010). In , we showed a preliminary image from the data in this study.…”

Section: Newly Detected Extended Ionized Gas Clouds (Eigs)mentioning

confidence: 99%

Extended Ionized Gas Clouds in the Abell 1367 Cluster^∗

Yagi

Yoshida

Gavazzi

et al. 2017

ApJ

View full text Add to dashboard Cite

We surveyed a central 0.6 deg 2 region of Abell 1367 cluster for extended ionized gas clouds (EIGs) using the Subaru prime-focus camera (Suprime-Cam) with a narrow-band filter that covers Hα. We discovered six new EIGs in addition to five known EIGs. We also found that the Hα tail from the blue infalling group (BIG) is extended to about 330 kpc in projected distance, which is about twice longer than previously reported. Candidates of star-forming blobs in the tail are detected. The properties of the EIG parent galaxies in Abell 1367 basically resemble those in the Coma cluster. A noticeable difference is that the number of detached EIGs is significantly fewer in Abell 1367, while the fraction of blue member galaxies is higher. The results suggest a difference in the evolutionary stage of the clusters; Abell 1367 is at an earlier stage than the Coma cluster.

show abstract

“…While there are also examples of longer ram pressure stripped gas tails (length ∼ (1 − 2) × D 25 ; Oosterloo & van Gorkom 2005;Chung et al 2007;Boselli et al 2016), most of the gas missing in the Virgo galaxies has not been revealed in the intracluster space (e.g., Vollmer & Huchtmeier 2007). In the more distant cluster A1367, with about 5-times the Virgo mass, several long RPS tails were observed in H I (Scott et al 2010(Scott et al , 2012.…”

Section: Introductionmentioning

confidence: 99%

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*

Jáchym

Sun

Kenney

et al. 2017

ApJ

119

View full text Add to dashboard Cite

We have discovered large amounts of molecular gas, as traced by CO emission, in the ram pressure stripped gas tail of the Coma cluster galaxy D100 (GMP 2910), out to large distances of about 50 kpc. D100 has a 60 kpc long, strikingly narrow tail which is bright in X-rays and Hα. Our observations with the IRAM 30m telescope reveal in total ∼ 10 9 M ⊙ of H 2 (assuming the standard CO-to-H 2 conversion) in several regions along the tail, thus indicating that molecular gas may dominate its mass. Along the tail we measure a smooth gradient in the radial velocity of the CO emission that is offset to lower values from the more diffuse Hα gas velocities. Such a dynamic separation of phases may be due to their differential acceleration by ram pressure. D100 is likely being stripped at a high orbital velocity 2200 km s −1 by (nearly) peak ram pressure. Combined effects of ICM viscosity and magnetic fields may be important for the evolution of the stripped ISM. We propose D100 has reached a continuous mode of stripping of dense gas remaining in its nuclear region. D100 is the second known case of an abundant molecular stripped-gas tail, suggesting that conditions in the ICM at the centers of galaxy clusters may be favorable for molecularization. From comparison with other galaxies, we find there is a good correlation between the CO flux and the Hα surface brightness in ram pressure stripped gas tails, over ∼ 2 dex.

show abstract

Probing evolutionary mechanisms in galaxy clusters: neutral atomic hydrogen in Abell 1367

Cited by 66 publications

References 80 publications

Gas loss in simulated galaxies as they fall into clusters

Gas loss in simulated galaxies as they fall into clusters

Extended Ionized Gas Clouds in the Abell 1367 Cluster^∗

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*

Contact Info

Product

Resources

About

Probing evolutionary mechanisms in galaxy clusters: neutral atomic hydrogen in Abell 1367

Cited by 66 publications

References 80 publications

Gas loss in simulated galaxies as they fall into clusters

Gas loss in simulated galaxies as they fall into clusters

Extended Ionized Gas Clouds in the Abell 1367 Cluster∗

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100*

Contact Info

Product

Resources

About

Extended Ionized Gas Clouds in the Abell 1367 Cluster^∗

Molecular Gas Dominated 50 kpc Ram Pressure Stripped Tail of the Coma Galaxy D100^*