Causality Conditions

Get Causality Conditions essential facts below. View Videos or join the Causality Conditions discussion. Add Causality Conditions to your PopFlock.com topic list for future reference or share this resource on social media.
## The hierarchy

## Non-totally vicious

## Chronological

## Causal

## Distinguishing

### Past-distinguishing

### Future-distinguishing

## Strongly causal

## Stably causal

## Globally hyperbolic

## See also

## References

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Causality Conditions

In the study of Lorentzian manifold spacetimes there exists a hierarchy of **causality conditions** which are important in proving mathematical theorems about the global structure of such manifolds. These conditions were collected during the late 1970s.^{[1]}

The weaker the causality condition on a spacetime, the more *unphysical* the spacetime is. Spacetimes with closed timelike curves, for example, present severe interpretational difficulties. See the grandfather paradox.

It is reasonable to believe that any physical spacetime will satisfy the strongest causality condition: global hyperbolicity. For such spacetimes the equations in general relativity can be posed as an initial value problem on a Cauchy surface.

There is a hierarchy of causality conditions, each one of which is strictly stronger than the previous. This is sometimes called the **causal ladder**. The conditions, from weakest to strongest, are:

- Non-totally vicious
- Chronological
- Causal
- Distinguishing
- Strongly causal
- Stably causal
- Causally continuous
- Causally simple
- Globally hyperbolic

Given are the definitions of these causality conditions for a Lorentzian manifold . Where two or more are given they are equivalent.

**Notation**:

- denotes the chronological relation.
- denotes the causal relation.

(See causal structure for definitions of , and , .)

- For some points we have .

- There are no closed chronological (timelike) curves.
- The chronological relation is irreflexive: for all .

- There are no closed causal (non-spacelike) curves.
- If both and then

- Two points which share the same chronological past are the same point:

- For any neighborhood of there exists a neighborhood such that no past-directed non-spacelike curve from intersects more than once.

- Two points which share the same chronological future are the same point:

- For any neighborhood of there exists a neighborhood such that no future-directed non-spacelike curve from intersects more than once.

- For any neighborhood of there exists a neighborhood such that there exists no timelike curve that passes through more than once.
- For any neighborhood of there exists a neighborhood such that is causally convex in (and thus in ).
- The Alexandrov topology agrees with the manifold topology.

A manifold satisfying any of the weaker causality conditions defined above may fail to do so if the metric is given a small perturbation. A spacetime is stably causal if it cannot be made to contain closed causal curves by arbitrarily small perturbations of the metric. Stephen Hawking showed^{[2]} that this is equivalent to:

- There exists a
*global time function*on . This is a scalar field on whose gradient is everywhere timelike and future-directed. This*global time function*gives us a stable way to distinguish between future and past for each point of the spacetime (and so we have no causal violations).

- is strongly causal and every set (for points ) is compact.

Robert Geroch showed^{[3]} that a spacetime is globally hyperbolic if and only if there exists a Cauchy surface for . This means that:

- is topologically equivalent to for some Cauchy surface (Here denotes the real line).

**^**E. Minguzzi and M. Sanchez,*The causal hierarchy of spacetimes*in H. Baum and D. Alekseevsky (eds.), vol. Recent developments in pseudo-Riemannian geometry, ESI Lect. Math. Phys., (Eur. Math. Soc. Publ. House, Zurich, 2008), pp. 299-358, ISBN 978-3-03719-051-7, arXiv:gr-qc/0609119**^**S.W. Hawking,*The existence of cosmic time functions*Proc. R. Soc. Lond. (1969),**A308**, 433**^**R. Geroch,*Domain of Dependence*Archived 2013-02-24 at Archive.today J. Math. Phys. (1970)**11**, 437-449

- S.W. Hawking, G.F.R. Ellis (1973).
*The Large Scale Structure of Space-Time*. Cambridge: Cambridge University Press. ISBN 0-521-20016-4. - S.W. Hawking, W. Israel (1979).
*General Relativity, an Einstein Centenary Survey*. Cambridge University Press. ISBN 0-521-22285-0.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Popular Products

Music Scenes

Popular Artists