Poisson-Arago-type Ring Experiment --- Non-interference patterns evolving to interference patterns

<p>Young’s double slit experiment and Poisson/Arago spot experiment revived the wave theory of the light. The standard interpretation is that the light behaves as waves. Feynman called the double slit experiment the only mystery in quantum mechanics. Recently, the photon chamber has been proposed and utilized to study the behavior of photons near the detecting screen. The experiments show that the light, near the screen, behaves as photons propagating along the straight-line trajectories, and the trajectories distribute as waves. Furthermore, the photon chamber experiments show that, within certain macroscopic distance from the double slit, the pattern is non-interference, which indicates that the standard double slit experiments violate the standard wave interpretations. In this article, we show, the first time, that, within certain macroscopic distance from the ring, the pattern is non-interference, and how the non-interference pattern (near the ring) evolving to the interference pattern (far from the ring).</p> <p>blob:https://www.techrxiv.org/401bdd50-1361-4e46-892a-577f52ebac33</p> <p>blob:https://www.techrxiv.org/7b37d541-ca7e-4ea4-ad7e-21e8698dd5b6</p> <p>The experiments show: (1) the nature of the patterns is distance-dependent; (2) to certain macroscopic distance from the ring, the light beams behave as particle; (3) when the distance increases, the non-interference pattern evolves to the interference pattern, i.e., the non-wave nature and the wave distribution coexist in the same wave experiment. The experiments: (1) provide novel phenomena/data for further theoretical development of the optics and for understanding the nature of the light.</p>