Large quasar group
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A large quasar group (LQG) is a collection of quasars (a form of supermassive black hole active galactic nuclei) that form what are thought to constitute the largest astronomical structures in the known universe. LQGs are thought to be precursors to the sheets, walls and filaments of galaxies found in the relatively nearby universe.[1]
Prominent LQGs
On January 11, 2013, the discovery of the Huge-LQG was announced by the University of Central Lancashire, as the largest known structure in the universe by that time. It comprises 74 quasars and has a minimum diameter of 1.4 billion light-years, but over 4 billion light-years at its widest point.[2] According to researcher and author, Roger Clowes, the existence of structures with the size of LQGs was believed theoretically impossible. Cosmological structures had been believed to have a size limit of approximately 1.2 billion light-years.[3][4]
List of LQGs
LQG | Date | Mean Distance | Dimension | # of quasars | Notes |
---|---|---|---|---|---|
Webster LQG (LQG 1) |
1982 | z=0.37 | 100 Mpc | 5 | First LQG discovered. At the time of its discovery, it was the largest structure known.[1][4][5] |
Crampton–Cowley–Hartwick LQG (LQG 2, CCH LQG, Komberg-Kravtsov-Lukash LQG 10) |
1987 | z=1.11 | 60 Mpc | 28 | Second LQG discovered [1][4][6] |
Clowes–Campusano LQG (U1.28, CCLQG, LQG 3) |
1991 | z=1.28 |
|
34 | Third LQG discovered [4][7] |
1995 | z=1.9 | 120 Mpc/h | 10 | Discovered by Graham, Clowes, Campusano.[1][6][8] | |
1995 | z=0.19 | 60 Mpc/h | 7 | Discovered by Graham, Clowes, Campusano; this is a grouping of 7 Seyfert galaxies.[1][6][8] | |
Komberg–Kravtsov–Lukash LQG 1 | 1996 | z=0.6 | Mpc/h | R=9612 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 2 | 1996 | z=0.6 | Mpc/h | R=11112 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 3 | 1996 | z=1.3 | Mpc/h | R=12314 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 4 | 1996 | z=1.9 | Mpc/h | R=10414 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 5 | 1996 | z=1.7 | Mpc/h | R=14613 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 6 | 1996 | z=1.5 | Mpc/h | R=9410 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 7 | 1996 | z=1.9 | Mpc/h | R=9210 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 8 | 1996 | z=2.1 | Mpc/h | R=10412 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 9 | 1996 | z=1.9 | Mpc/h | R=6618 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 11 | 1996 | z=0.7 | Mpc/h | R=15711 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Komberg–Kravtsov–Lukash LQG 12 | 1996 | z=1.2 | Mpc/h | R=15514 | Discovered by Komberg, Kravtsov, Lukash.[1][6] |
Newman LQG (U1.54) |
1998 | z=1.54 | 150 Mpc/h | 21 | Discovered by P.R. Newman et al. This structure is parallel to the CCLQG, with its discovery, suggesting that the cellular structure of sheets and voids already existed in this era, as found in later void bubbles and walls of galaxies.,[1][7] |
Tesch–Engels LQG | 2000 | z=0.27 | 140 Mpc/h | 7 | The first X-ray selected LQG.[1] |
U1.11 | 2011 | z=1.11 |
|
38 | [4][7] |
Huge-LQG (U1.27) |
2013 | z=1.27 |
|
73 | The largest structure known in the observable universe[4][9] until it was eclipsed by the Hercules–Corona Borealis Great Wall found one year later.[10][11][12] |
See also
References
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 R.G.Clowes; "Large Quasar Groups - A Short Review"; 'The New Era of Wide Field Astronomy', ASP Conference Series, Vol. 232.; 2001; Astronomical Society of the Pacific; ISBN 1-58381-065-X ; Bibcode: 2001ASPC..232..108C
- ↑ Wall, Mike (2013-01-11). "Largest structure in universe discovered". Fox News.
- ↑ Wall, Mike (2013-01-11). "Largest Structure In Universe, Large Quasar Group, Challenges Cosmological Principle". The Huffington Post.
- 1 2 3 4 5 6 Clowes, R. G.; Harris, K. A.; Raghunathan, S.; Campusano, L. E.; Sochting, I. K.; Graham, M. J. (January 11, 2013). "A structure in the early Universe at z ∼ 1.3 that exceeds the homogeneity scale of the R-W concordance cosmology". Monthly Notices of the Royal Astronomical Society. 429 (4): 2910–2916. Bibcode:2013MNRAS.429.2910C. arXiv:1211.6256 . doi:10.1093/mnras/sts497.
- ↑ Webster, Adrian (May 1982). "The clustering of quasars from an objective-prism survey". Monthly Notices of the Royal Astronomical Society. 199 (3): 683–705. Bibcode:1982MNRAS.199..683W. doi:10.1093/mnras/199.3.683.
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Komberg, Boris V.; Kravtsov, Andrey V.; Lukash, Vladimir N. (1996). "The search and investigation of the Large Groups of Quasars". arXiv:astro-ph/9602090 .
- 1 2 3 Clowes, Roger; Luis E. Campusano, Matthew J. Graham and Ilona K. S¨ochting (2001-09-01). "Two close Large Quasar Groups of size ∼ 350 Mpc at z ∼ 1.2". Monthly Notices of the Royal Astronomical Society. 419: 556–565. Bibcode:2012MNRAS.419..556C. arXiv:1108.6221 . doi:10.1111/j.1365-2966.2011.19719.x.
- 1 2 Graham, M. J.; Clowes, R. G.; Campusano, L. E. (1995). "Finding Quasar Superstructures". Monthly Notices of the Royal Astronomical Society. 275 (3): 790. Bibcode:1995MNRAS.275..790G. doi:10.1093/mnras/275.3.790.
- ↑ ScienceDaily, "Biggest Structure in Universe: Large Quasar Group Is 4 Billion Light Years Across", Royal Astronomical Society, 11 January 2013 (accessed 13 January 2013)
- ↑ Horváth, István; Hakkila, Jon; Bagoly, Zsolt (2014). "Possible structure in the GRB sky distribution at redshift two". Astronomy & Astrophysics. 561: L12. Bibcode:2014A&A...561L..12H. arXiv:1401.0533 . doi:10.1051/0004-6361/201323020.
- ↑ Horvath, I.; Hakkila, J.; Bagoly, Z. (2013). "The largest structure of the Universe, defined by Gamma-Ray Bursts". arXiv:1311.1104 [astro-ph.CO].
- ↑ Klotz, Irene (2013-11-19). "Universe's Largest Structure is a Cosmic Conundrum". Discovery. Retrieved 2013-11-22.
Further reading
- R. G. Clowes; "Large Quasar Groups - A Short Review"; 'The New Era of Wide Field Astronomy', ASP Conference Series, Vol. 232.; 2001; Astronomical Society of the Pacific; ISBN 1-58381-065-X ; Bibcode: 2001ASPC..232..108C