Issues

 / 

2013

 / 

December

  

Reviews of topical problems


Black holes in the presence of dark energy

 a,  b,  b
a Laboratoire dePhysique Theorique dOrsay CNRS UMR 8627, Université Paris-Sud 11, Bâtiment 210, Orsay Cedex, 91405, France
b Institute for Nuclear Research, Russian Academy of Sciences, prosp. 60-letiya Oktyabrya 7a, Moscow, 117312, Russian Federation

The new, rapidly developing field of theoretical research into dark energy interaction with black holes (and in particular, the accretion of dark energy onto black holes) is reviewed. The term “dark energy” is meant to cover a wide range of field theory models as well as perfect fluids with various equations of state, including cosmological dark energy. Various accretion models are analyzed in terms of the simplest test field approximation or by allowing for back-reaction on the black hole metric. The behavior of various types of dark energy in the vicinity of Schwarzschild and electrically charged black holes is examined. Nontrivial effects due to the presence of dark energy in the black hole vicinity are discussed. In particular, a physical explanation is given of why a black hole decreases in mass when accreting phantom energy, a process in which the basic energy conditions of the famous theorem of nondecreasing horizon area in classical black holes are violated. A theoretical possibility of a signal escaping from beneath the black hole event horizon is discussed for a number of dark energy models. Finally, the violation of the laws of thermodynamics by black holes in the presence of noncanonical fields is considered.

Fulltext is available at IOP
PACS: 04.70.Bw, 04.70.Dy, 95.36.+x, 98.80.Cq (all)
DOI: 10.3367/UFNe.0183.201312a.1257
URL: https://ufn.ru/en/articles/2013/12/a/
Citation: Babichev E O, Dokuchaev V I, Eroshenko Yu N "Black holes in the presence of dark energy" Phys. Usp. 56 1155–1175 (2013)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Received: 25th, March 2013, revised: 7th, June 2013, 24th, June 2013

:   ,   ,    «׸   » 183 1257–1280 (2013); DOI: 10.3367/UFNr.0183.201312a.1257

References (222) Cited by (42) Similar articles (20) ↓

  1. S.I. Blinnikov, A.D. Dolgov “Cosmological acceleration62 529–567 (2019)
  2. S.G. Turyshev “Experimental tests of general relativity: recent progress and future directions52 1–27 (2009)
  3. V.A. Rubakov, P.G. Tinyakov “Infrared-modified gravities and massive gravitons51 759–792 (2008)
  4. V.S. Berezinsky, V.I. Dokuchaev, Yu.N. Eroshenko “Small scale clumps of dark matter57 1–36 (2014)
  5. V.I. Dokuchaev “Birth and life of massive black holes34 (6) 447–470 (1991)
  6. V.S. Beskin “Magnetohydrodynamic models of astrophysical jets53 1199–1233 (2010)
  7. S.N. Gurbatov, A.I. Saichev, S.F. Shandarin “Large-scale structure of the Universe. The Zeldovich approximation and the adhesion model55 223–249 (2012)
  8. V.V. Zhuravlev “Analytical models of relativistic accretion disks58 527–555 (2015)
  9. A.D. Dolgov “Massive and supermassive black holes in the contemporary and early Universe and problems in cosmology and astrophysics61 115–132 (2018)
  10. V.A. Rubakov “Large and infinite extra dimensions44 871–893 (2001)
  11. I.G. Dymnikova “Motion of particles and photons in the gravitational field of a rotating body (In memory of Vladimir Afanas’evich Ruban)29 215–237 (1986)
  12. A.G. Polnarev, M.Yu. Khlopov “Cosmology, primordial black holes, and supermassive particles28 213–232 (1985)
  13. V.N. Lukash, E.V. Mikheeva, A.M. Malinovsky “Formation of the large-scale structure of the Universe54 983–1005 (2011)
  14. P.B. Ivanov, E.V. Mikheeva et alInterferometric observations of supermassive black holes in the millimeter wave band62 423–449 (2019)
  15. O.V. Verkhodanov “Cosmological results from the Planck space mission and their comparison with data from the WMAP and BICEP2 experiments59 3–41 (2016)
  16. A.N. Aliev, D.V. Gal’tsov “’Magnetized’ black holes32 75–92 (1989)
  17. A.M. Cherepashchuk “Search for black holes46 335–371 (2003)
  18. N.I. Shakura, K.A. Postnov et alQuasi-spherical subsonic accretion in X-ray pulsars56 321–346 (2013)
  19. B.M. Barbashov, V.V. Nesterenko “Superstrings: a new approach to a unified theory of fundamental interactions29 1077–1096 (1986)
  20. A.Yu. Potekhin “The physics of neutron stars53 1235–1256 (2010)

The list is formed automatically.

© 1918–2020 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions