Champion
Aug25-08, 11:44 PM
i was going over some relativity search online and came across what is called a closed timelike curve and that i actually allows time travel, am i right?
View Full Version : What Are Closed Timelike Curves?
Fredrik
Aug25-08, 11:53 PM
A "curve" is a function c:A\rightarrow M where A is some interval of real numbers and M is the spacetime manifold. "Timelike" means that if we call the tangent vector v and the metric tensor g, then g(v,v)<0 at all points on the curve. (If we define the metric with a +--- signature instead of -+++, it's ">" instead of "<"). "Closed" means that c(t+T)=c(t) for some real numbers t and T such that both t and t+T are in A.
A timelike curve is the type of curve that can represent that path of a massive object through spacetime. If it's closed, the object will meet a younger version of itself at some point.
Edit: I should probably add that the condition g(v,v)<0 can also be written
g_{\mu\nu}v^\mu v^\nu<0
and that in a local inertial frame, this is just
-(v^0)^2+(v^1)^2+(v^2)^2+(v^3)^2<0
A timelike curve is the type of curve that can represent that path of a massive object through spacetime. If it's closed, the object will meet a younger version of itself at some point.
Edit: I should probably add that the condition g(v,v)<0 can also be written
g_{\mu\nu}v^\mu v^\nu<0
and that in a local inertial frame, this is just
-(v^0)^2+(v^1)^2+(v^2)^2+(v^3)^2<0
Champion
Aug26-08, 12:38 AM
i was thinking it over,about the constant energy.ctc's would violate 2nd law of therodynamics,also i looked up that GR allows ctc's but QM does not.
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