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Abstract
In this article, an attempt based on Spin Topological Space, STS, to give areasonable detailed account of the cause of photonic fermionization phenomena of light photon is made. STS is an unconventional spin space in quantum mechanics, which can be used to account for where the unconventional half-integer spin eigenvalues phenomenon of light photon comes from. We suggest to dectect the possible existence of photonic one-third-spinization phenomenon of light photon, by using three beams of light photon in interference experiment.
Highlights
Eastham [1] measured the total angular momentum of the beam of light with their interferometer, and observed some curious optical phenomena. They found: the eigenvalues of angular momentum of light photon obviously shifted away from the normal physical values that are ruled by the general axioms accepted in today’s quantum mechanics world
This present article, " There is a way to comprise half-integer eigenvalues for photon spin ", is in the frame of Spin Topological Space, STS [2] to consider the contributions of spin effects of light photon, and tries to clear up the cause of the photonic fermionization phenomena, which emerged from the experiment [1]
2) For a fixed term of the new spin angular momentum 3; m/2 2, m/2 −1, there are many options to choose from the general expression (29)
Summary
Keywords Spin Topological Space, STS, Non-Hermitian matrix, Casimir operator, photonic fermionization phenomena, half-integer spin eigenvalues, one third, one fourth spin eigenvalues of photon spin
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