The Mach-Zehnder interferometer is used to demonstrate the quantum phenomenon. It is used to demonstrate and prove that a quantum partic...
The Mach-Zehnder interferometer is used to demonstrate the quantum phenomenon. It is used to demonstrate and prove that a quantum particle can be in different places at the same time and the particle only "chose" place when a measurement locates it. However, this demonstration of the Mach-Zehnder interferometer for proving this quantum strangeness is explainable without quantum strangeness if we consider the interferometer is used in a multi-particle experiment. The experimental result of the multi-particle experiment in the Mach-Zehnder interferometer does not need quantum strangeness explanation if many particles act at the same time but provide the same results as the one particle experiment with the quantum strangeness experiment would. Is the Mach-Zehender interferometer really works with one particle at a time?
The single-particle interference should not work with any size of spatial separation. It works in the dimension comparable with the particle's wavelength, which phenomena can be explained without incomprehensible quantum strangeness. If any distance of space separation does not work in the quantum systems, if the same particle cannot travel in different trajectories on any distance, then much of the quantum strangeness can be eliminated, no case of the same thing in the same time in widely distant places exists.
The quantum phenomenon exists in quantum size. Any distance of spatial separation on quantum size particles works in the case of the entanglement, however, that phenomena may be explainable without incomprehensible quantum strangeness but by coherent multiple particles. It was discussed in the thought of "The magic behind the quantum entanglement..."
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