Experimental Study of Mystery of Double Slit --- Comprehensive Double Slit Experiments

Hui Peng
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引用次数: 3

Abstract

Young‘s double slit experiments, which represent the mystery of quantum mechanics, have been interpreted by quantum probability waves and pilot waves. In this article, to study the mystery, we introduce the ―virtual box‖ which represents the slide of double-slit and its right-hand neighborhood. Within, and only within, the ―virtual box‖ the standard wave interference patterns are formed. We propose and carry out ―comprehensive double slit experiments‖ that show that, first, light travelling from a laser source towards the slides of double slit and/or cross-double slit behaves as particle (postulate-1), and second, after leaving the "virtual box" zone and being directed towards the detector, the light behaves as a stream of photons (postulate-2) with no further interference due to the slits. On the one hand, the interference patterns do exist in the comprehensive-double slit experiments. On the other hand, we show four novel phenomena: (1) the fringes of the interference patterns are formed independently; (2) the fringes of the interference patterns can be formed partially; (3) the longitudinal shields do not disturb the interference patterns; and (4) the range of the virtual box is less than one inch. These novel phenomena indicate that photons behave as particles, and would not be expected if photons behave as waves created by the double slit and/or cross double slit. The comprehensive-double slit experiments show the coexistence of wave distribution and particle nature of photons in the same experiment, which violates complementarity principle and thus, seems a paradox. We suggest an interpretation to address the paradox. All observations of the comprehensive-double slit experiments are consistent. Progress in studying the mystery of the double slit experiment is presented.
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双缝之谜的实验研究——综合双缝实验
杨氏双缝实验,代表了量子力学的奥秘,已经被量子概率波和导频波解释。在本文中,为了研究这个奥秘,我们引入了代表双缝滑动及其右邻域的“虚拟盒”。在且仅在“虚拟箱”内形成标准波干涉图样。我们提出并进行了“综合双缝实验”,该实验表明,首先,从激光源向双缝和/或交叉双缝滑动的光表现为粒子(假设-1),其次,在离开“虚拟盒”区域并被定向到探测器后,光表现为光子流(假设-2),没有由于狭缝的进一步干扰。一方面,在综合双缝实验中确实存在干涉图样。另一方面,我们发现了四个新的现象:(1)干涉条纹是独立形成的;(2)干涉图样的条纹可以部分形成;(3)纵向屏蔽不干扰干涉图样;(4)虚拟盒的范围小于一英寸。这些新现象表明光子表现为粒子,如果光子表现为由双缝和/或交叉双缝产生的波,则不会被期望。综合双缝实验表明,在同一实验中,光子的波分布和粒子性质同时存在,这违反了互补原理,似乎是一个悖论。我们提出一种解释来解决这个悖论。综合双缝实验的所有观测结果都是一致的。介绍了双缝实验奥秘的研究进展。
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