NGC 7727 explained

NGC 7727
Epoch:J2000
Type:SAB(s)a pec[1]
Appmag V:11.5
Size V:4.7′ × 3.5′
Constellation Name:Aquarius
Names:PGC 72060, Arp 222

NGC 7727 is a peculiar galaxy in the constellation Aquarius. It harbors two galactic nuclei, each containing a supermassive black hole, separated 1,600 light years apart.

Features

This object is located at a distance of 23.3 megaparsecs (76 million light years) from the Milky Way and has a peculiar aspect, with several plumes and streams of irregular shape that explains its inclusion on Halton C. Arp's Atlas of Peculiar Galaxies with the number 222, being classified as a "Galaxy with amorphous spiral arms".

In all likelihood, this system is the product of the merger of two previous spiral galaxies that took place 1 billion years ago,[2] with the aforementioned stellar plumes and streams being the remnants of the disks of the two galaxies that collided to form this object.

Two starlike objects can be seen in NGC 7727's center, at least one of them likely being the former core of one of those two spiral galaxies.[3] In addition to this, 23 objects – candidates to be young globular clusters formed in the collision – can be found in this system.

NGC 7727 is very similar to NGC 7252, another galaxy product of the collision and merging of two former spiral galaxies, in the same constellation. However it has far less gas (neutral hydrogen and molecular hydrogen) than the latter.[4]

NGC 7727's most likely fate is to become an elliptical galaxy in the future, with very little interstellar dust and star formation.[5]

In November 2021, scientists announced the discovery of a pair of supermassive black holes in NGC 7727, detected with the Very Large Telescope's multi-unit spectroscopic explorer (MUSE) at the European Southern Observatory. The black holes have masses of 154 and 6.3 million solar masses, and are separated 1,600 light years apart. The pair are among the closest confirmed supermassive black holes to Earth at about 89 million light years away. Although the pair are separated closely enough to gravitationally influence each other, the smaller black hole is not bound in orbit around the larger black hole due to the surrounding mass of the NGC 7727 core region. The black holes will eventually merge in the next 250 million years, producing powerful, low-frequency gravitational waves in the process.[6] [7]

See also

Notes and References

  1. Web site: NASA/IPAC Extragalactic Database . Results for NGC 7727 . 2013-12-21.
  2. Crabtree . D. R. . Smecker-Hane . T. . December 1994. Bulletin of the American Astronomical Society . 26 . 1499 . Young Star Clusters and CO Gas in the Galaxy Merger, NGC 7727 (Arp 222) . 1994AAS...18510714C.
  3. http://ned.ipac.caltech.edu/cgi-bin/nph-datasearch?search_type=Note_id&objid=56078&objname=NGC%207727&img_stamp=YES&hconst=73.0&omegam=0.27&omegav=0.73&corr_z=1&of=table Notes for Object NGC 7727 (NED)
  4. Georgakakis . A. . Forbes . D. A. . Norris . R. P. . October 2000. . 318 . 1 . 124–138 . Cold gas and star formation in a merging galaxy sequence . 2000MNRAS.318..124G . 10.1046/j.1365-8711.2000.03709.x. free . astro-ph/0006084 . 13956594 .
  5. http://www.kentbiggs.com/images/galaxies/N7727.htm NGC 7727 - Clash of the Titans
  6. Web site: ESO telescope uncovers closest pair of supermassive black holes yet. 2021-12-04. www.eso.org. en.
  7. Voggel. K. T.. Seth. A. C.. Baumgardt. H.. Husemann. B.. Neumayer. N.. Hilker. M.. Pechetti. R.. Mieske. S.. Dumont. A.. Georgiev. I.. 2021-11-30. First direct dynamical detection of a dual super-massive black hole system at sub-kpc separation. Astronomy & Astrophysics. 10.1051/0004-6361/202140827. 0004-6361. free. 2111.14854.