H1821+643
H1821+643 is an extraordinarily luminous, radio-quiet quasar in the constellation of Draco. [1] The associated Active Galactic Nucleus (AGN) is situated in the Brightest Central Galaxy (BCG) of a massive (), strong cooling flow cluster, CL 1821+64.[2] Russel et al (2010) spatially isolated its X-ray signal from the surrounding cluster in Chandra X-ray observatory observations and computed from the observed X-ray luminosity. [2]
H1821+643 | |
---|---|
Observation data (Epoch J2000.0) | |
Constellation | Draco |
Right ascension | 18h 21m 57.2365s |
Declination | +64° 20′ 36.226″ |
Redshift | 0.2970 |
Distance | 3.4 gigalight-years (1.0 Gpc) |
Type | Quasar |
Apparent magnitude (V) | 14.24 |
See also: Quasar, List of quasars |
Supermassive Black Hole
The SMBH centred in CL 1821+64 is believed to be among the most massive in the known Universe.[2] A variety of techniques have found different values for the mass. 5 studies found values . Kim et al (2004) and Floyd et al (2008) used galactic bulge luminosity fits derived from Hubble data to find and respectively. Russell et al (2010) provided a rough estimate of M☉.[2] This was an underestimate with . Kolman et al (1991) and Shapovalova (2016) independently modelled the quasar UV spectrum to find . Capellupo et al (2017) found using line emissions. 2 independent X-ray studies found significantly higher values. Reynolds et al (2014) found by modelling reflection from the accretion disc and Walker et al found by modelling the interaction of the black hole with the Intracluster medim (ICM) as a Compton-cooled feeding cycle. is in the range .[2]
The Schwarzschild diameter of this black hole is between 9.4 terametres (63 AU) and 188 terametres (1,260 AU), which is about 16 times the diameter of Pluto's orbit. If the hole were a Euclidean sphere, the average density would be 18 g/m3, the density of air at sea level on Earth.[lower-alpha 1]
References
- Walker, S. A.; Fabian, A. C.; Russell, H. R.; Sanders, J. S. (2014). "The effect of the quasar H1821+643 on the surrounding intracluster medium: Revealing the underlying cooling flow". Monthly Notices of the Royal Astronomical Society. 442 (3): 2809. arXiv:1405.7522. Bibcode:2014MNRAS.442.2809W. doi:10.1093/mnras/stu1067.
- Sisk-Reynés, J.; Reynolds, C. S.; Matthews, J. H.; Smith, R. N. (2022). "Evidence for a moderate spin from X-ray reflection of the high-mass supermassive black hole in the cluster-hosted quasar H1821+643". arXiv:1405.7522.