A Runaway Black Hole in COSMOS: Gravitational Wave or Slingshot Recoil?

F. Civano (1); M. Elvis (1); G. Lanzuisi (1,2); K. Jahnke (3); G.; Zamorani (4); L. Blecha (5); A. Bongiorno (6); M. Brusa (6); A. Comastri (4),; H. Hao (1); A. Leauthaud (7); A. Loeb (5); M. Mignoli (4); V. Mainieri (8),; E. Piconcelli (9); M. Salvato (10); N. Scoville (10); J. Trump (11); C.; Vignali (12); T. Aldcroft (1); M. Bolzonella (4); E. Bressert (1); A.; Finoguenov (6); A. Fruscione (1); A. M. Koekemoer (13); N. Cappelluti (6); F.; Fiore (9); S. Giodini (6); R. Gilli (4); C. D. Impey (11); S. J. Lilly (14),; E. Lusso (4,12); S. Puccetti (15); J. D. Silverman (14); H. Aussel (16); P.; Capak (10); D. Frayer (10); E. Le Floc'h (17); H. J. McCracken (18); D. B.; Sanders (17); D. Schiminovich (19); Y. Taniguchi (20) ((1)Harvard Smithsonian; Center for astrophysics; (2)Universita` di Roma La Sapienza; (3)Max Planck; Institut fur Astronomie; Heidelberg; (4)INAF-Osservatorio Astronomico di; Bologna; (5)Harvard University; (6)MPE Garching; (7)LBNL; University of; California; (8)ESO Garching; (9)INAF-Osservatorio Astronomico di Roma; (10); California Institute of Technology; (11) University of Arizona,; (12)Universita` degli Studi di Bologna; (13)Space Telescope Science; Institute; (14)ETH; (15)ASI Science Data Center; (16)AIM Unite' Mixte de; Recherche CEA CNRS; (17)University of Hawaii; (18)Institut d'Astrophysique de; Paris; (19)Columbia University; (20)Ehime University)

arXiv:1003.0020·astro-ph.CO·May 18, 2015

A Runaway Black Hole in COSMOS: Gravitational Wave or Slingshot Recoil?

F. Civano (1), M. Elvis (1), G. Lanzuisi (1,2), K. Jahnke (3), G., Zamorani (4), L. Blecha (5), A. Bongiorno (6), M. Brusa (6), A. Comastri (4),, H. Hao (1), A. Leauthaud (7), A. Loeb (5), M. Mignoli (4), V. Mainieri (8),, E. Piconcelli (9), M. Salvato (10), N. Scoville (10)

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TL;DR

This paper investigates a peculiar galaxy with dual optical sources and unique X-ray features, proposing it as a candidate for a recoiling black hole or a complex triple black hole system, providing insights into black hole dynamics.

Contribution

It presents the first detailed case study of a galaxy with dual nuclei and variable X-ray features, suggesting a recoiling black hole or a triple system as explanations.

Findings

01

Detection of two compact sources separated by 2.46 kpc.

02

Observation of a variable, highly ionized iron absorption line.

03

Identification of potential signatures of a recoiling black hole or triple system.

Abstract

We present a detailed study of a peculiar source in the COSMOS survey at z=0.359. Source CXOCJ100043.1+020637 (CID-42) presents two compact optical sources embedded in the same galaxy. The distance between the 2, measured in the HST/ACS image, is 0.495" that, at the redshift of the source, corresponds to a projected separation of 2.46 kpc. A large (~1200 km/s) velocity offset between the narrow and broad components of Hbeta has been measured in three different optical spectra from the VLT/VIMOS and Magellan/IMACS instruments. CID-42 is also the only X-ray source having in its X-ray spectra a strong redshifted broad absorption iron line, and an iron emission line, drawing an inverted P-Cygni profile. The Chandra and XMM data show that the absorption line is variable in energy by 500 eV over 4 years and that the absorber has to be highly ionized, in order not to leave a signature in the…

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