Physics:Misner space
Misner space is an abstract mathematical spacetime,[1] first described by Charles W. Misner.[2] It is also known as the Lorentzian orbifold [math]\displaystyle{ \mathbb{R}^{1,1}/\text{boost} }[/math]. It is a simplified, two-dimensional version of the Taub–NUT spacetime. It contains a non-curvature singularity and is an important counterexample to various hypotheses in general relativity.
Metric
The simplest description of Misner space is to consider two-dimensional Minkowski space with the metric
- [math]\displaystyle{ ds^2= -dt^2 + dx^2, }[/math]
with the identification of every pair of spacetime points by a constant boost
- [math]\displaystyle{ (t, x) \to (t \cosh (\pi) + x \sinh(\pi), x \cosh (\pi) + t \sinh(\pi)). }[/math]
It can also be defined directly on the cylinder manifold [math]\displaystyle{ \mathbb{R} \times S }[/math] with coordinates [math]\displaystyle{ (t', \varphi) }[/math] by the metric
- [math]\displaystyle{ ds^2= -2dt'd\varphi + t'd\varphi^2, }[/math]
The two coordinates are related by the map
- [math]\displaystyle{ t= 2 \sqrt{-t'} \cosh\left(\frac{\varphi}{2}\right) }[/math]
- [math]\displaystyle{ x= 2 \sqrt{-t'} \sinh\left(\frac{\varphi}{2}\right) }[/math]
and
- [math]\displaystyle{ t'= \frac{1}{4}(x^2 - t^2) }[/math]
- [math]\displaystyle{ \phi= 2 \tanh^{-1}\left(\frac{x}{t}\right) }[/math]
Causality
Misner space is a standard example for the study of causality since it contains both closed timelike curves and a compactly generated Cauchy horizon, while still being flat (since it is just Minkowski space). With the coordinates [math]\displaystyle{ (t', \varphi) }[/math], the loop defined by [math]\displaystyle{ t = 0, \varphi = \lambda }[/math], with tangent vector [math]\displaystyle{ X = (0,1) }[/math], has the norm [math]\displaystyle{ g(X,X) = 0 }[/math], making it a closed null curve. This is the chronology horizon : there are no closed timelike curves in the region [math]\displaystyle{ t \lt 0 }[/math], while every point admits a closed timelike curve through it in the region [math]\displaystyle{ t \gt 0 }[/math].
This is due to the tipping of the light cones which, for [math]\displaystyle{ t \lt 0 }[/math], remains above lines of constant [math]\displaystyle{ t }[/math] but will open beyond that line for [math]\displaystyle{ t \gt 0 }[/math], causing any loop of constant [math]\displaystyle{ t }[/math] to be a closed timelike curve.
Chronology protection
Misner space was the first spacetime where the notion of chronology protection was used for quantum fields,[3] by showing that in the semiclassical approximation, the expectation value of the stress-energy tensor for the vacuum [math]\displaystyle{ \langle T_{\mu\nu} \rangle_\Omega }[/math] is divergent.
References
- ↑ Hawking, S.; Ellis, G. (1973). The Large Scale Structure of Space-Time. Cambridge University Press. p. 171. ISBN 0-521-20016-4.
- ↑ Misner, C. W. (1967). "Taub-NUT space as a counterexample to almost anything". in Ehlers, J.. Relativity Theory and Astrophysics I: Relativity and Cosmology. Lectures in Applied Mathematics. 8. American Mathematical Society. pp. 160–169. https://ntrs.nasa.gov/search.jsp?R=19660007407.
- ↑ Hawking, S. W. (1992-07-15). "Chronology protection conjecture". Physical Review D (American Physical Society (APS)) 46 (2): 603–611. doi:10.1103/physrevd.46.603. ISSN 0556-2821. PMID 10014972. Bibcode: 1992PhRvD..46..603H.
Further reading
- Berkooz, M.; Pioline, B.; Rozali, M. (2004). "Closed Strings in Misner Space: Cosmological Production of Winding Strings". Journal of Cosmology and Astroparticle Physics 2004 (8): 004. doi:10.1088/1475-7516/2004/08/004. Bibcode: 2004JCAP...08..004B. http://iopscience.iop.org/1475-7516/2004/08/004/.
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