Jump to content

Bunch–Davies vacuum

From Wikipedia, the free encyclopedia

In quantum field theory in curved spacetime, there is a whole class of quantum states over a background de Sitter space which are invariant under all the isometries: the alpha-vacua. Among them there is a particular one whose associated Green functions verify a condition (Hadamard condition) consisting to behave on the light-cone as in flat space. This state is usually called the Bunch–Davies vacuum or Euclidean vacuum,[1] actually was first obtained by N.A. Chernikov and E. A. Tagirov, in 1968[2] and later by C. Schomblond and P. Spindel, in 1976, in the framework of a general discussion about invariant Green functions on de Sitter space.[3] The Bunch–Davies vacuum can also be described as being generated by an infinite time trace from the condition that the scale of quantum fluctuations is much smaller than the Hubble scale.[4] The state possesses no quanta at the asymptotic past infinity.[5]

The Bunch–Davies state is the zero-particle state as seen by a geodesic observer, that is, an observer who is in free fall in the expanding state.[6] The state explains the origin of cosmological perturbation fluctuations in inflationary models.

See also

[edit]

References

[edit]
  1. ^ Bunch, Timothy Stephen; Davies, Paul (1978). "Quantum Field Theory In De Sitter Space: Renormalization By Point Splitting". Proceedings of the Royal Society of London. A. 360 (1700): 117–134. Bibcode:1978RSPSA.360..117B. doi:10.1098/rspa.1978.0060. S2CID 121912658.
  2. ^ Chernikov, N.A.; Tagirov, E. A. (1968). "Quantum theory of scalar field in de Sitter space-time". Annales de l'Institut Henri Poincaré. A. IX, 2: 109. Bibcode:1968AnHP....9..109C.
  3. ^ Schomblond, Christiane; Spindel, Philippe (1976). "Conditions d'unicit e pour le propagateur Delta 1(x; y) du champ scalaire dans l'univers de de Sitter". Annales de l'Institut Henri Poincaré. A. XXV, 1: 67.
  4. ^ Danielsson, Ulf H; Olsson, Martin E (15 March 2004). "On thermalization in de Sitter space". Journal of High Energy Physics. 2004 (3): 036. arXiv:hep-th/0309163. Bibcode:2004JHEP...03..036D. doi:10.1088/1126-6708/2004/03/036. S2CID 16226660.
  5. ^ Armendariz-Picon, C (26 February 2007). "Why should primordial perturbations be in a vacuum state?". Journal of Cosmology and Astroparticle Physics. 2007 (2): 031. arXiv:astro-ph/0612288. Bibcode:2007JCAP...02..031A. doi:10.1088/1475-7516/2007/02/031. S2CID 33049406.
  6. ^ Greene, Brian R; Parikh, Maulik K; van der Schaar, Jan Pieter (28 April 2006). "Universal correction to the inflationary vacuum". Journal of High Energy Physics. 2006 (4): 057. arXiv:hep-th/0512243. Bibcode:2006JHEP...04..057G. doi:10.1088/1126-6708/2006/04/057. S2CID 16290999.

Further reading

[edit]