At midnight on the 2nd of  November 1997
R. Karl Lilje and MANisMACHINE succesfully managed to
prove that faster than light communication is possible.
R. Karl Lilje, Derek Verneuren, Jorgen Zimmer

Here's how:

Preparation
1. Measured out 2.5km on an open plain.
    (Minimum required for  lightspeed detection using current timer technology)
    Light travels 1m in 0.000000003335640952 seconds.
    Most accurate output-timer found could measure 0.0000001 second intervals.
2. Spanned a coated fibre-optic cable from one end NODE to the other end NODE.
    Cable was tightened between springs to near breaking point.
3. At each end NODE was placed:
    1 Optical LASER Detector,
    1 Micron Motion Sensor
     each connected to a synchronised delta timer
     (Two synchronised timers, that can output their values to a PC.
     Only the difference/delta value is displayed. The actual time is irrelevant)
Phase A
4. Standard Lightspeed test was done:
5. Shone LASER in one NODE end.
6. Delta Timer showed +0.0000084s (An accurate reading for atmospheric LASER.)
    (The difference in time between triggering of the first sensor and the second)
Phase B
7. MiM FTL (Faster Than Light) test was done:
8: One Node was literally 'Pulled' by hand.
9: Delta Timer showed +0.0000001s over 2.5km,
    80 times faster than the speed of light
10: Experiment was done in reverse with identical results.

Conclusion:
It is possible to communicate faster than light.
Instead of moving a wave/particle through a medium,
you can move the entire medium.
The compression/rarefaction of a solid medium takes far
less time than transmission of light.
If it is possible to communicate Faster Than Light,
then it MUST be possible to travel Faster Than Light.