Physics:Back-reaction

From HandWiki

In theoretical physics, back-reaction (or backreaction) is often necessary to calculate the self-consistent behaviour of a particle or an object in an external field.

Intuitive definition

When a particle is considered to have no mass or to have an infinitesimal charge, this can be described as saying that we deal with a probe and that back-reaction is neglected. However, a real object also carries (in general) a mass and a charge itself. These properties imply that the model of the original environment needs to be modified to reach self-consistency. For example, a particle can be described as helping to curve the space in general relativity. Taking into account the constraints implied on the model by the particle's properties – the back-reaction – is one way of reaching a more accurate model than if those constraints are ignored.

Cosmology

In inhomogeneous cosmology, in which structure formation is taken into account in a general-relativistic model of the Universe, the term "backreaction" is used for a measure of the non-commutativity of the averaging procedure

[math]\displaystyle{ G_{\mu\nu}(\overline{g_{\alpha\beta}}) \neq \overline{G_{\mu\nu}(g_{\alpha\beta})} = \frac{8\pi G}{c^4}\overline{T_{\mu\nu}} }[/math]

(which comes from the non-linearity of Einstein field equations) and the dynamical evolution of spatial slices of space-time.[1] (As of 2017), the role of backreaction in possibly leading to an alternative to dark energy is an open question of debate among cosmologists.[2][3] The existence of a homogeneity length scale can be considered to be that at which the calculations with and without backreaction give the same results. (As of 2017), the existence of such a scale needs experimental confirmation.[1]

References

  1. 1.0 1.1 Buchert, Thomas (2008). "Dark Energy from structure: a status report". General Relativity and Gravitation 40 (2–3): 467–527. doi:10.1007/s10714-007-0554-8. Bibcode2008GReGr..40..467B. 
  2. Buchert, Thomas; Carfora, Mauro; Ellis, George F.R.; Kolb, Edward W.; MacCallum, Malcolm A.H.; Ostrowski, Jan J.; Räsänen, Syksy; Roukema, Boudewijn F. et al. (2015-10-13). "Is there proof that backreaction of inhomogeneities is irrelevant in cosmology?". Classical and Quantum Gravity 32 (21): 215021. doi:10.1088/0264-9381/32/21/215021. Bibcode2015CQGra..32u5021B. 
  3. Buchert, Thomas; Carfora, Mauro; Ellis, George F.R.; Kolb, Edward W.; MacCallum, Malcolm A.H.; Ostrowski, Jan J.; Räsänen, Syksy; Roukema, Boudewijn F. et al. (2016-01-20). "The Universe is inhomogeneous. Does it matter?". CQG+. Institute of Physics. http://cqgplus.com/2016/01/20/the-universe-is-inhomogeneous-does-it-matter/. 

External links

Shaun Hotchkiss (1 July 2015). "The Trenches of Discovery: Cosmological Backreaction". http://trenchesofdiscovery.blogspot.com.au/2015/07/cosmological-backreaction.html.