Cygnus A

A concentrated radio source in Cygnus was discovered by Grote Reber in 1939. In 1946 Stanley Hey and his colleague James Phillips identified that the source scintillated rapidly, and must therefore be a compact object.{{cite journal | doi=10.1098/rspa.1948.0017 | title=An investigation of galactic radiation in the radio spectrum | journal=Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences | year=1948 | volume=192 | issue=1030 | pages=425–445 | bibcode=1948RSPSA.192..425H | last1=Hey | first1=J. S. | last2=Parsons | first2=S. J. | last3=Phillips | first3=J. W. | s2cid=121054928 }} In 1951, Cygnus A, along with Cassiopeia A, and Puppis A were the first "radio stars" identified with an optical source. Of these, Cygnus A became the first radio galaxy, the other two being nebulae inside the Milky Way.{{cite journal | doi=10.1086/145812 | title=Identification of the Radio Sources in Cassiopeia, Cygnus a, and Puppis A | year=1954 | last1=Baade | first1=W. | last2=Minkowski | first2=R. | journal=The Astrophysical Journal | volume=119 | page=206 | bibcode=1954ApJ...119..206B }} In 1953 Roger Jennison and M K Das Gupta showed it to be a double source.{{cite journal

| author1=Jennison, R.C.

| author2=Das Gupta, M.K.

| title=Fine Structure of the extra-terrestrial radio source Cygnus 1

| journal=Nature

| page=996

| year=1953

| volume=172

| issue=4387

| doi=10.1038/172996a0

| bibcode=1953Natur.172..996J

| s2cid=4251058

| url=http://ukads.nottingham.ac.uk/cgi-bin/nph-bib_query?bibcode=1953Natur.172..996J&db_key=AST

| archive-url=https://web.archive.org/web/20190827000433/http://ukads.nottingham.ac.uk/cgi-bin/nph-bib_query?bibcode=1953Natur.172..996J&db_key=AST

| url-status=dead

| archive-date=August 27, 2019

| url-access=subscription

}} Like all radio galaxies, it contains an active galactic nucleus (AGN). The supermassive black hole at the core has a mass of {{Val|2.5e9|.7|ul=solar mass}}.{{cite journal

| title=Populating the Galaxy Velocity Dispersion - Supermassive Black Hole Mass Diagram: A Catalogue of (Mbh, σ) Values

| last1=Graham | first1=Alister W.

| journal=Publications of the Astronomical Society of Australia

| volume=25 | issue=4 | pages=167–175 | date=November 2008

| doi=10.1071/AS08013 | bibcode=2008PASA...25..167G |arxiv = 0807.2549 | s2cid=89905 }} Jets from the AGN have also been observed to induce hotspots in the radio lobes and subsequently holes in the surround IGM.

Cygnus A is the cD galaxy in a rich galaxy cluster of the same name, and has been found to have quite a number of around 200 neighboring galaxies.{{Cite journal |last=Ledlow, Owen, and Miller |date=July 2005 |title=The Cluster of Galaxies Surrounding Cygnus A. II. New Velocities and a Dynamic Model |url=https://iopscience.iop.org/article/10.1086/430628/pdf |journal=The Astrophysical Journal |volume=130 |issue=1 |pages=47–54 |arxiv=astro-ph/0503581 |bibcode=2005AJ....130...47L |doi=10.1086/430628}} It is also worth it to note that the larger Cygnus galaxy cluster is undergoing a cluster merger, of which it is one of the first cluster mergers whose radial velocity (Doppler Shift) has been measured through X-Ray spectroscopy.{{Citation |last1=Sarazin |first1=Craig L. |title=Merger shocks in Abell 3667 and the Cygnus a cluster |date=2012-11-20 |journal=Astronomische Nachrichten |volume=334 |issue=4–5 |pages=346–349 |arxiv=1211.4823 |doi=10.1002/asna.201211854 |last2=Finoguenov |first2=Alexis |last3=Wik |first3=Daniel R.}}

Images of the galaxy in the radio portion of the electromagnetic spectrum show two jets protruding in opposite directions from the galaxy's center. These jets extend many times the width of the portion of the host galaxy which emits radiation at visible wavelengths.{{cite web

| author=Strange, D

| title=The Radio Galaxy Cygnus "A"

| url=http://ourworld.compuserve.com/homepages/dstrange/cygnusa.htm

| access-date=2008-09-22

| url-status=dead

| archive-url=https://web.archive.org/web/20080725125333/http://ourworld.compuserve.com/homepages/dstrange/cygnusa.htm

| archive-date=July 25, 2008

}} At the ends of the jets are two lobes with "hot spots" of more intense radiation at their edges. These hot spots are formed when material from the jets collides with the surrounding intergalactic medium.{{cite web

|author1=Nemiroff, Robert |author-link1 = Robert J. Nemiroff |author2=Bonnell, Jerry | title= X-Ray Cygnus A

| work=Astronomy Picture of the Day

| date=2002-10-05

| url=http://www.sai.msu.su/apod/ap021005.html

| access-date=2008-09-22}}

These hotspots interacting with the intergalactic medium, or intra-cluster-medium (ICM), primarily observed in the radio spectrum can also be observed in the X-Ray. Chandra's resolution in the X-Ray gave the resolution and wavelength necessary to observe the hotspots in better detail, and they turned out to be cavity or hole like structures in both lobes. The cavities seen carved out at the hotspots of lobes are caused by the interaction between the jets, powered by the AGN of Cygnus A, and the intra-cluster-medium surrounding the galaxy.{{Citation |last1=Snios |first1=Bradford |title=The X-Ray Cavity Around Hotspot e in Cygnus A: Tunneled by a Deflected Jet |date=2020-03-03 |url=https://arxiv.org/abs/2002.02978 |access-date=2025-02-18 |arxiv=2002.02978 |last2=Johnson |first2=Amalya C. |last3=Nulsen |first3=Paul E. J. |last4=Kraft |first4=Ralph P. |last5=Vries |first5=Martijn de |last6=Perley |first6=Richard A. |last7=Sebokolodi |first7=Lerato |last8=Wise |first8=Michael W.|journal=The Astrophysical Journal |volume=891 |issue=2 |page=173 |doi=10.3847/1538-4357/ab737d |doi-access=free |bibcode=2020ApJ...891..173S }} X-Ray jets thermally heat these hotspots, energizing them and pushing surrounding plasma out of the way carving a hole through the ICM.{{Citation |last1=Marcowith |first1=A. |title=The microphysics of collisionless shock waves |date=2016-04-01 |url=https://arxiv.org/abs/1604.00318 |access-date=2025-02-18 |arxiv=1604.00318 |last2=Bret |first2=A. |last3=Bykov |first3=A. |last4=Dieckman |first4=M. E. |last5=Drury |first5=L. O. C. |last6=Lembege |first6=B. |last7=Lemoine |first7=M. |last8=Morlino |first8=G. |last9=Murphy |first9=G.|journal=Reports on Progress in Physics |volume=79 |issue=4 |page=046901 |doi=10.1088/0034-4885/79/4/046901 |pmid=27007555 |bibcode=2016RPPh...79d6901M }} The most prominent cavity is seen in the eastern lobe (on the left) where the diameter of the hole is around 3900 parsecs, or around 11,700 lightyears wide, and the depth is 13.3 kiloparsecs, or 44,000 lightyears deep.

Although it has not been directly observed, Cygnus A's spectra suggest there is a dusty torus obscuring the AGN centered on the jet's axis. The torus has been observed to extend around 200 pc radially outwards from the center with an estimated height of 143 pc.{{Cite journal |last1=Carilli |first1=C. L. |last2=Perley |first2=R. A. |last3=Dhawan |first3=V. |last4=Perley |first4=D. A. |date=2019-04-05 |title=Imaging the Active Galactic Nucleus Torus in Cygnus A |journal=The Astrophysical Journal |volume=874 |issue=2 |pages=L32 |doi=10.3847/2041-8213/ab1019 |doi-access=free |arxiv=1904.01365 |bibcode=2019ApJ...874L..32C |issn=2041-8213}}File:Cygnus A composite.jpg

In 2016, a radio transient was discovered 460 parsecs away from the center of Cygnus A. Between 1989 and 2016, the object, cospatial with a previously-known infrared source, exhibited at least an eightfold increase in radio flux density, with comparable luminosity to the brightest known supernova. Due to the lack of measurements in the intervening years, the rate of brightening is unknown, but the object has remained at a relatively constant flux density since its discovery. The data are consistent with a second supermassive black hole orbiting the primary object, with the secondary having undergone a rapid accretion rate increase. The inferred orbital timescale is of the same order as the activity of the primary source, suggesting the secondary may be perturbing the primary and causing the outflows.{{cite journal|last1=Perley|first1=D. A.|last2=Perley|first2=R. A.|last3=Dhawan|first3=V.|last4=Carilli|first4=C. L.|title=Discovery of a Luminous Radio Transient 460 pc from the Central Supermassive Black Hole in Cygnus A|journal=The Astrophysical Journal|volume=841|issue=2|year=2017|pages=117|issn=1538-4357|doi=10.3847/1538-4357/aa725b|arxiv = 1705.07901 |bibcode = 2017ApJ...841..117P |s2cid=54536121 |doi-access=free }}

• List of galaxies
• List of nearest galaxies

• {{cite journal |bibcode=1994Natur.367..713H|title=X-ray emission from the radio hotspots of Cygnus A |last1=Harris |first1=D. E. |last2=Carilli |first2=C. L. |last3=Perley |first3=R. A. |journal=Nature |year=1994 |volume=367 |issue=6465 |page=713 |doi=10.1038/367713a0 |s2cid=4352349 }}
• {{cite web

| title=Cygnus A

| work=SIMBAD Astronomical Database

| url=http://simbad.u-strasbg.fr/simbad/sim-id?protocol=html&Ident=Cygnus+A&NbIdent=1&Radius=2&Radius.unit=arcmin&submit=submit+id}}

• {{cite web

| author=Blanco, Philip

| title=The powerful radio galaxy Cygnus A

| date=1997-02-07

| url=http://mamacass.ucsd.edu/people/pblanco/cyga.html

| url-status=dead

| archive-url=https://archive.today/20120210140951/http://mamacass.ucsd.edu/people/pblanco/cyga.html

| archive-date=2012-02-10

}}

• {{cite web |last1=Tuesday |first1=Alison Klesman |date=May 2017 |title=A familiar galaxy with a new surprise: Two supermassive black holes |url=https://astronomy.com/news/2017/05/galaxy-with-two-supermassive-black-holes |website=Astronomy.com |language=en}}

{{commonscat}}

• [http://simbad.u-strasbg.fr/sim-id.pl?protocol=html&Ident=cygnus+a&NbIdent=1&Radius=10&Radius.unit=arcmin&CooFrame=FK5&CooEpoch=2000&CooEqui=2000&output.max=all&o.catall=on&output.mesdisp=N&Bibyear1=1983&Bibyear2=2005&Frame1=FK5&Frame2=FK4&Frame3=G&Equi1=2000.0&Equi2=1950.0&Equi3=2000.0&Epoch1=2000.0&Epoch2=1950.0&Epoch3=2000.0 Information about Cygnus A] from SIMBAD.
• [http://hubblesite.org/newscenter/archive/releases/1994/1994/42/text/ Hubble Uncovers a Hidden Quasar in a Nearby Galaxy (Cygnus A)]
• [https://www.g4fas.net/1998-07-07-Cygnus-A-night-of-nights.html A primitive transit recording (7 July 1998) of Cygnus A by English radio amateur Geoff Royle G4FAS]

{{Stars of Cygnus}}

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Category:Cygnus (constellation)

Category:Radio galaxies

Category:Quasars

Category:Astronomical objects discovered in 1939