Advances in Double Slit Experiment with Theoretical Implications

This paper describes three new double slit experiments that challenge the concept of non-locality and other related concepts. The first experiment limits the core photon path to one slit at the double slit. This prevents the destruction or disabling of the broader wave or field by post exit, which way, detection methods in prior experiments. This allows the generation of a double slit interference pattern even when the path is known. It has been demonstrated that opposite polarity can prevent interference even when it is not a path determinate [1]; however, this and other disrupters is the method of determining path determination in existing single photon experiments [2]. This first experiment is more in alignment with the less favored David Bohm interpretation [3] than those of Neils Bohr and Albert Einstein. In the second experiment the convergence of the two possible paths is delayed. This prevents the occurrence of a double slit pattern after the photon has reconstituted from the disruption from encountering the slit edges. The third experiment, confirms the implications of the first and second experiments. Together these experiments seem to indicate that the core photon is a complex system that generates a broader field or wave that can interact with the core photon to govern the trajectory; but, can only do so when the core photon is recovering from partial disruption and the relative polarity and alignment has not been altered.