Add to ORKGThe largest galaxies in the universe reside in galaxy clusters. Using sensitive observations of carbon monoxide, we show that the Spiderweb galaxy—a massive galaxy in a distant protocluster—is forming from a large reservoir of molecular gas. Most of this molecular gas lies between the protocluster galaxies and has low velocity dispersion, indicating that it is part of an enriched intergalactic medium. This may constitute the reservoir of gas that fuels the widespread star formation seen in earlier ultraviolet observations of the Spiderweb galaxy. Our results support the notion that giant galaxies in clusters formed from extended regions of recycled gas at high redshift
International audienceThe circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerat...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The largest galaxies in the universe reside in galaxy clusters. Using sensitive observations of carb...
International audienceThe largest galaxies in the universe reside in galaxy clusters. Using sensitiv...
International audienceThe largest galaxies in the universe reside in galaxy clusters. Using sensitiv...
The largest galaxies in the universe reside in galaxy clusters. Using sensitive observations of carb...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The high-redshift radio galaxy MRC 1138-262 ('Spiderweb Galaxy'; z = 2.16) is one of the most massiv...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
The circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerate of merging proto-clu...
The circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerate of merging proto-clu...
International audienceThe circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerat...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The largest galaxies in the universe reside in galaxy clusters. Using sensitive observations of carb...
International audienceThe largest galaxies in the universe reside in galaxy clusters. Using sensitiv...
International audienceThe largest galaxies in the universe reside in galaxy clusters. Using sensitiv...
The largest galaxies in the universe reside in galaxy clusters. Using sensitive observations of carb...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The high-redshift radio galaxy MRC 1138-262 ('Spiderweb Galaxy'; z = 2.16) is one of the most massiv...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
This paper presents the results of 475 hours of interferometric observations with the Australia Tele...
The circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerate of merging proto-clu...
The circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerate of merging proto-clu...
International audienceThe circumgalactic medium (CGM) of the massive Spiderweb Galaxy, a conglomerat...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...
The high-redshift radio galaxy MRC 1138−262 (‘Spiderweb Galaxy’; z = 2.16) is one of the most massiv...