GN-z11

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GN-z11
Distant galaxy GN-z11 in GOODS-N image by HST.jpg
GN-z11 superimposed on an image from the GOODS-North survey
Observation data (J2000[1] epoch)
ConstellationUrsa Major[1]
Right ascension12h 36m 25.46s[1]
Declination+62° 14′ 31.4″[1]
Redshift11.09+0.08
−0.12
[2]
Helio radial velocity295,050 ± 119,917 km/s (183,336 ± 74,513 mi/s)[3]
Distance
  • ≈32 billion ly (9.8 billion pc)
       (present proper distance)
  • ≈13.4 billion ly (4.1 billion pc)
       (light-travel distance)
Apparent magnitude (V)25.8H
Characteristics
TypeIrregular
Mass~1×109[2] M
Size4,000 ± 2,000 ly (1,200 ± 610 pc)[2]
Apparent size (V)0.6arcsec[2]
Other designations
GN-z10-1,[2] GNS-JD2[3]

GN-z11 is a high-redshift galaxy found in the constellation Ursa Major. The discovery was published in a paper headed by P. A. Oesch and Gabriel Brammer (Cosmic Dawn Center). GN-z11 is currently the oldest and most distant known galaxy in the observable universe,[4] having a spectroscopic redshift of z = 11.09, which corresponds to a proper distance of approximately 32 billion light-years (9.8 billion parsecs).[5][note 1]

The object's name is derived from its location in the GOODS-North field of galaxies and its high cosmological redshift number (GN + z11).[6] It is observed as it existed 13.4 billion years ago, just 400 million years after the Big Bang;[2][7][8] as a result, its distance is sometimes inappropriately[9] reported as 13.4 billion light-years, its light-travel distance measurement.[10][11]

The galaxy has such a high redshift that its angular diameter distance is actually less than that of some galaxies with lower redshift. This means that the ratio of its angular size to its size in light-years is greater.

Discovery[]

Artist's conception of GN-z11 galaxy

The galaxy was identified by a team studying data from the Hubble Space Telescope's Cosmic Assembly Near-infrared Deep Extragalactic Legacy Survey (CANDELS) and Spitzer Space Telescope's Great Observatories Origins Deep Survey-North (GOODS-North).[12][13] The research team used Hubble's Wide Field Camera 3 to measure the distance to GN-z11 spectroscopically, measuring the redshift caused by the expansion of the universe.[14] The findings, which were announced in March 2016, revealed the galaxy to be farther away than originally thought, at the distance limit of what the Hubble Telescope can observe. GN-z11 is around 150 million years older than the previous record-holder EGSY8p7,[6] and is observed (shortly after but) "very close to the end of the so-called Dark Ages of the universe",[14] and (during but) "near the very beginning" of the reionization era.[12]

Compared with the Milky Way galaxy, GN-z11 is 125 of the size, has 1% of the mass, and is forming new stars approximately twenty times as fast.[14] With a stellar age estimated at 40 million years, it appears the galaxy formed its stars relatively rapidly.[2] The fact that a galaxy so massive existed so soon after the first stars started to form is a challenge to some current theoretical models of the formation of galaxies.[12][14]

Animation showing the location of GN-z11
Hubble spectroscopically confirms farthest galaxy to date

Notes[]

  1. ^ At first glance, the distance of 32 billion light-years (9.8 billion parsecs) might seem impossibly far away in a Universe that is only 13.8 billion (short scale) years old, where a light-year is the distance light travels in a year, and where nothing can travel faster than the speed of light. However, because of the expansion of the universe, the distance of 2.66 billion light-years between GN-z11 and the Milky Way at the time when the light was emitted increased by a factor of (z+1)=12.1 to a distance of 32.2 billion light-years during the 13.4 billion years it has taken the light to reach us. See: Size of the observable universe, Misconceptions about the size of the Observable universe, Measuring distances in expanding space and ant on a rubber rope.

References[]

  1. ^ Jump up to: a b c d "Hubble Team Breaks Cosmic Distance Record - Fast Facts". HubbleSite. March 3, 2016. STScI-2016-07. Archived from the original on July 6, 2016. Retrieved March 4, 2016.
  2. ^ Jump up to: a b c d e f g Oesch, P. A.; Brammer, G.; van Dokkum, P.; et al. (March 2016). "A Remarkably Luminous Galaxy at z=11.1 Measured with Hubble Space Telescope Grism Spectroscopy". The Astrophysical Journal. 819 (2). 129. arXiv:1603.00461. Bibcode:2016ApJ...819..129O. doi:10.3847/0004-637X/819/2/129.
  3. ^ Jump up to: a b "[BIG2010] GNS-JD2". SIMBAD. Centre de données astronomiques de Strasbourg. Retrieved February 13, 2017.
  4. ^ Klotz, Irene (March 3, 2016). "Hubble Spies Most Distant, Oldest Galaxy Ever". Seeker. Discovery, Inc. Retrieved February 5, 2020.
  5. ^ Drake, Nadia (March 3, 2016). "Astronomers Spot Most Distant Galaxy—At Least For Now". National Geographic. No Place Like Home. Retrieved March 4, 2016.
  6. ^ Jump up to: a b "Hubble Team Breaks Cosmic Distance Record". NASA. March 3, 2016. Retrieved March 10, 2016.
  7. ^ Amos, Jonathan (March 3, 2016). "Hubble sets new cosmic distance record". BBC News. Retrieved March 3, 2016.
  8. ^ Griffin, Andrew (4 March 2016). "Most distant object in the universe spotted by Hubble Space Telescope, shattering record for the farthest known galaxy". The Independent. Retrieved 17 December 2017.
  9. ^ Wright, Edward L. (August 2, 2013). "Why the Light Travel Time Distance should not be used in Press Releases". University of California, Los Angeles. Retrieved March 10, 2016.
  10. ^ Borenstein, Seth (March 3, 2016). "Astronomers Spot Record Distant Galaxy From Early Cosmos". Associated Press. Archived from the original on March 6, 2016. Retrieved May 1, 2016.
  11. ^ "GN-z11: Astronomers push Hubble Space Telescope to limits to observe most remote galaxy ever seen". Australian Broadcasting Corporation. March 3, 2016. Retrieved March 10, 2016.
  12. ^ Jump up to: a b c "Hubble breaks cosmic distance record". SpaceTelescope.org. March 3, 2016. heic1604. Retrieved March 3, 2016.
  13. ^ "Hubble Team Breaks Cosmic Distance Record". HubbleSite.org. March 3, 2016. STScI-2016-07. Retrieved March 3, 2016.
  14. ^ Jump up to: a b c d Shelton, Jim (March 3, 2016). "Shattering the cosmic distance record, once again". Yale University. Retrieved March 4, 2016.
Records
Preceded by
EGSY8p7
Most distant known astronomical object
2016–present
Current holder
Preceded by
EGSY8p7
Most distant known galaxy
2016–present
Current holder
Retrieved from ""