Two Interference Mechanisms of Identical Particles in Quantum Mechanics
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This paper reviews two interference mechanisms for identical particles in quantum mechanics: equal wavelength interference and exchange effect interference, and proposes experiments to demonstrate and distinguish them.
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Abstract
The phenomenon of interference is a characteristic of all waves. This paper reviews the interference of classical waves and of matter waves in quantum mechanics. In quantum mechanics, there are two interference mechanisms between identical particles. One is that the de Broglie wavelengths of two interference waves are the same, which is called the equal wavelength interference mechanism. The other is that the wavelengths of interference waves can also be different, in which case there should be an exchange term in additional to the direction term in the wave function. There is a fixed phase difference between the two terms, which causes interference. This is called exchange effect interference mechanism. We propose an experiment, which is simpler to what has been done, to show the exchange effect interference. There is a special case where two interference waves can satisfy both the two mechanisms. We propose an experiment to discriminate that in this case which mechanism plays a role on earth.
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- last seen: 2026-05-19T01:45:01.086888+00:00