Reshape the invariance of light speed: Medium translate reflection interpretation in information teleportation

This research paper reinterprets the speed of light travel through a medium. Our innovative conceptual approach reshapes the understanding of the invariance of the speed of light. This Medium Translate Reflection (MTR) interpretation aims to address the century-old question posed by Albert Einstein: “the spooky action at a distance.” Our MTR interpretation may offer a clue to a breakthrough regarding Einstein's question. Using experiments [1][2][3][4][5][6][7], we depict light propagation altered by matter in different medium and moving media. Departing from the notion of medium invariance, we derive a framework where the effective light speed v equals c over n u times (1 minus 1 over n squared), which always emerges in the distance between A and B, matching Fizeau's observations. These implications challenge Galilean physics. Additionally, our suggestion of partial entrainment in dense frames causes light deviation. This deviation process might allow information to travel faster than the speed of light. Moreover, we discover when light passes through the medium, it may slow down initially (upon impact), but since the light must continue along path (C), it could experience moments of acceleration during its breakthrough. In other words, light can momentarily move faster than its normal speed (at special moment). This interpretation aligns logically consistence with the applications in modern interferometry and quantum mechanics concepts.