NGC 7585 explained

NGC 7585
Credit:HST/NASA/ESA.
Epoch:J2000
Type:(R')SA(s)0+ pec[1]
Dist Ly:145 million light years
Z:0.011805 ± 0.000003
H Radial V:3539 ± 1 km/s
Appmag V:11.4[2]
Size V:2.3 × 2.0
Constellation Name:Aquarius
Names:MCG -01-59-015, PGC 70986, Arp 223

NGC 7585 is a lenticular galaxy with a peculiar shape resulting from an interaction between two galaxies. It is located 145 million light years away in the constellation Aquarius which, given its apparent dimensions, means that NGC 7585 is about 100,000 light years across. It was discovered by William Herschel on September 20, 1784.[3]

Characteristics

NGC 7585 is a lenticular galaxy with shells. The disk of the galaxy is also present and distinct from the shells. The shells are irregular and have radial and loop form, and one of them looks like a faint outer arm. The shells are probably the result of a merger that took place over a billion years ago. The shells are bluer than the rest of the galaxy and suggestive of a spiral galaxy taking part in a merger, while other features seem to be part of the accreted galaxy.[4] The upper limit of the molecular gas mass based on CO imaging is 107.5 .[5]

Nearby galaxies

Two galaxies appear near NGC 7585. NGC 7576 is located 10.7 arcminutes southwest of NGC 7585, while NGC 7592 is located 15.2 arcminutes to the northeast. NGC 7576 is at a similar redshift with NGC 7585, but its normal shape indicates it has not interacted recently with NGC 7585. On the other hand, NGC 7592 appears disturbed, however it has double the redshift.[4]

Notes and References

  1. Web site: NASA/IPAC Extragalactic Database . Results for NGC 7585 . 2020-11-03.
  2. Web site: Revised NGC Data for NGC 7585 . spider.seds.org . 25 November 2018.
  3. Web site: Seligman . Courtney . NGC 7585 (= PGC 70986) . Celestial Atlas . 19 November 2018.
  4. McGaugh . Stacy S. . Bothun . Gregory D. . Stellar populations in shell galaxies . The Astronomical Journal . October 1990 . 100 . 1073 . 10.1086/115580. 1990AJ....100.1073M . 1903/8712 . free .
  5. Ueda . Junko . Iono . Daisuke . Yun . Min S. . Crocker . Alison F. . Narayanan . Desika . Komugi . Shinya . Espada . Daniel . Hatsukade . Bunyo . Kaneko . Hiroyuki . Matsuda . Yuichi . Tamura . Yoichi . Wilner . David J. . Kawabe . Ryohei . Pan . Hsi-An . Cold molecular gas in merger remnants. I. Formation of molecular gas disks. . The Astrophysical Journal Supplement Series . 12 August 2014 . 214 . 1 . 1 . 10.1088/0067-0049/214/1/1. 1407.6873 . 2014ApJS..214....1U . 716993 .