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Coordinates: Sky map 13h 05m 33.01498s, −10° 33′ 19.4266″
From Wikipedia, the free encyclopedia
PKS 1302-102
Observation data (Epoch J2000.0 [1])
ConstellationVirgo [2]
Right ascension13h 05m 33.01498s [1]
Declination−10° 33′ 19.4266″ [1]
Redshift0.2784 [2]
Distance3.5×10^9 ly (1.1 Gpc)[2]
TypeFSRS, FSRQ, FSQ, QSO, E4 [1][2]
Apparent magnitude (V)14.9 [2]
Other designations
PG 1302-102,[2] PG 1302-103,[1] ICRF J130533.0-103319,[1] PKS 1302-102,[2] PKS 1302-103,[1] PKS J1305-1033,[1] PKS B1302-102,[2] QSO J1305-1033,[1] QSO B1302-1017[1]
See also: Quasar, List of quasars

PKS 1302-102 is a quasar in the Virgo constellation, located at a distance of approximately 1.1 Gpc (around 3.5 billion light-years).[2] It has an apparent magnitude of about 14.9 mag in the V band with a redshift of 0.2784.[2] The quasar is hosted by a bright elliptical galaxy[3], with two neighboring companions at distances of 3 kpc and 6 kpc. The light curve of PKS 1302-102 appears to be be sinusoidal with an amplitude of 0.14 mag and a period of 1,884 ± 88 days, which suggests evidence of a supermassive black hole binary.[4]

Possible black hole binary

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PKS 1302-102 was selected from the Catalina Real-Time Transient Survey as one of 20 quasars with apparent periodic variations in the light curve. Of theses quasars, PKS 1302-102 appeared to be the best candidate in terms of sinusoidal behavior and other selection criteria, such as data coverage of more than 1.5 cycles in the measured period.[4] One plausible interpretation of the apparent periodic behavior is the possibility of two supermassive black holes (SMBH) orbiting each other with a separation of approximately 0.1 pc in the final stages of a 3.3 billion year old galaxy merger. If this turns out to be the case, it would make PKS 1302-102 an important object of study to various areas of research, including gravitational wave studies and the unsolved final parsec problem in a merger of black holes.

Other explanations, of lesser likelihood, to the observed sinusoidal periodicity include a hot spot on the inner part of the black hole's accretion disk and the possibility of a warped accretion disk which partially eclipses in the orbit around a single SMBH.[4] However, it also remains possible that the periodic behavior in PKS 1302-102 is indeed just a random occurrence in the light curve of an ordinary quasar, as spurious nearly-periodic variations can occur over limited time periods as part of stochastic quasar variability.[5] Further observations of the quasar could either promote true periodicity or rule out a binary interpretation, especially if the measured light curve randomly diverges from the sinusoidal model.[5]

References

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  1. ^ a b c d e f g h i j "ICRF J130533.0-103319 -- Seyfert 1 Galaxy". SIMBAD. Retrieved 2015-01-10.
  2. ^ a b c d e f g h i j "PG 1302-102". NED. Retrieved 2015-01-11.
  3. ^ Disney, M. J.; Boyce, P. J.; Blades, J. C.; Boksenberg, A.; Crane, P.; Deharveng, J. M.; Macchetto, F.; Mackay, C. D.; Sparks, W. B. (1995-07-13). "Interacting elliptical galaxies as hosts of intermediate-redshift quasars". Nature. 376 (6536): 150–153. doi:10.1038/376150a0.
  4. ^ a b c Graham, Matthew J.; Djorgovski, S. G.; Stern, Daniel; Glikman, Eilat; Drake, Andrew J.; Mahabal, Ashish A.; Donalek, Ciro; Larson, Steve; Christensen, Eric (2015-02-01). "A possible close supermassive black-hole binary in a quasar with optical periodicity". Nature. 518: 74–76. doi:10.1038/nature14143. ISSN 0028-0836.
  5. ^ a b Vaughan, S.; Uttley, P.; Markowitz, A. G.; Huppenkothen, D.; Middleton, M. J.; Alston, W. N.; Scargle, J. D.; Farr, W. M. (2016-09-01). "False periodicities in quasar time-domain surveys". Monthly Notices of the Royal Astronomical Society. 461: 3145–3152. doi:10.1093/mnras/stw1412. ISSN 0035-8711.{{cite journal}}: CS1 maint: unflagged free DOI (link)
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Further reading

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https://arstechnica.com/science/2015/01/supermassive-black-hole-binary-discovered/

https://www.nytimes.com/2015/01/08/science/in-a-far-off-galaxy-2-black-holes-dance-toward-an-explosive-union.html