string theory
according to string theory all particles including messenger particles which are made up of vibrating strings which have a definite size and therefore cannot be purely a wave. we can apply this to gluons, photons and gravitons to say that they have a size whereas waves do not...
graviton density
ok perhaps the gravitons may travel at some super small extra number than _c making them appear to have light speed but this is neglecting what i call "graviton wave density". under my theory the warping factor of space is proportional to the "graviton wave density", meaning...
gravitons then must travel at a speed less than _c in their induced field
ok if you say that gravity (gravitons) travel at _c then they must travel at some slower speed while in motion due to their gravitational effect of space-time, but since _c is the top velocity for light which has no mass...
process of warping space-time
as it were the process of warping space would not take as long as one would think because if one were warping space they would use a high density graviton generator most likely altering the superstring vibrational pattern of a laser to that of a graviton laser if...
After playing around equations producing velocities greater than C in normal space due to space-time warping i had the theory that if a graviton travels at the speed of light and gravitons are the messenger particles of gravity (assuming that gravitons warp space-time by nature ) that depending...
FTL velocities are achievable?
as a "Trekkie" ( the cool kind) I theorize that if one were to warp space to a significant distance such as 1/12 normal size and travel at say even .2c then the apparent velocity would be exactly 2.4c. I've posted this theory in the "special & general relativity"...
getting back to where you started
I too believe you are right on with this theory because i too had this theory after determining that if one were to travel back in time and kill ones grandfather that person would still exist due to the quantum vibrational paterns of the strings that make up...