分束器上光子聚束非经典特征的波性质解释

B. Ham
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引用次数: 2

摘要

波恩规则是理解基于物理量测量过程的概率振幅的量子力学的关键。基于光子的典型粒子性质,即使输入光子之间的相对相位没有明确的定义,分束器上两个输出光子之间的光子聚束的量子特性也可以用玻恩规则来解释。不同于对这一问题的传统理解,即Hong-Ou-Mandel效应,在这里,我们提出了一种基于光子波动性质的新解释,其中光子聚束的量子特征是通过分束器的相基叠加来解释的。此外,还提出了一个马赫-曾德尔干涉仪来支持所提出方法的正确性。因此,通过相基叠加加深了我们对破坏性量子干涉的量子特征的有限理解。因此,所谓的“神秘的”量子特征现在被澄清了,既确定了成对光子之间的相位关系,也澄清了光学系统的相基叠加的新术语。
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A Wave Nature-Based Interpretation of The Nonclassical Feature of Photon Bunching On A Beam Splitter
Born’s rule is key to understanding quantum mechanics based on the probability amplitude for the measurement process of a physical quantity. Based on a typical particle nature of a photon, the quantum feature of photon bunching on a beam splitter between two output photons can be explained by Born’s rule even without clear definition of the relative phase between two input photons. Unlike conventional understanding on this matter, known as the Hong-Ou-Mandel effect, here, we present a new interpretation based on the wave nature of a photon, where the quantum feature of photon bunching is explained through phase basis superposition of the beam splitter. A Mach-Zehnder interferometer is additionally presented to support the correctness of the presented method. As a result, our limited understanding of the quantum feature is deepened via phase basis superposition regarding the destructive quantum interference. Thus, the so-called ‘mysterious’ quantum feature is now clarified by both the definite phase relationship between paired photons and a new term of the phase basis superposition of an optical system.
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