TL;DR
This paper explores a novel manifestation of two-photon interference at a Y junction, demonstrating how two-particle physics can lead to enhanced quantum transmission, differing from traditional one-particle models.
Contribution
It introduces a new understanding of two-photon interference effects at a Y junction, emphasizing the role of two-particle physics in quantum transmission phenomena.
Findings
Different states at a beam-splitter due to two-photon interference
Enhanced two-particle transmission at a Y junction
Distinct transmission coefficients arising from two-particle effects
Abstract
Two-photon interference is a fundamental phenomenon in quantum mechanics and stands at the base of numerous experimental observations. Here another manifestation of this phenomenon is described, taking place at a Y junction. Specifically it is shown how the r^2+t^2 term which is behind previous observations of two-photon interference, may give rise to different states at a beam-splitter and different two-particle transmission coefficients at a Y junction. Different from previous descriptions of quantum transmission based on one-particle physics, the enhanced transmission described here is due to two-particle physics.
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