Coherence analysis of phase-controlled HOM effects

• URL: http://arxiv.org/abs/2502.13479v1
• Date: Wed, 19 Feb 2025 07:03:39 GMT
• Title: Coherence analysis of phase-controlled HOM effects
• Authors: Byoung S. Ham,
• Abstract summary: A path-entangled two-photon state has been experimentally demonstrated for both bosonic and fermionic HOM effects. A pure coherence approach is applied to derive a general solution for these phase-controlled HOM effects.
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• Abstract: The second-order intensity correlation of entangled photons has been intensively studied for decades, particularly for the Hong-Ou-Mandel (HOM) effect and nonlocal correlation -- key quantum phenomena that have no classical counterparts. Recently, a path-entangled two-photon state has been experimentally demonstrated for both bosonic (symmetric) and fermionic (anti-symmetric) HOM effects by manipulating the photon phase at one input port. Entanglement represents a quantum superposition of path- or energy-correlated two-photon states with a relative phase. According to the conventional quantum mechanics, this phase is not an individual property but collective attribute of interacting photons. Here, the wave nature of photons is employed to coherently analyze the phase-controlled HOM effects recently observed in npj Quantum Info. 5, 43 (2019). A pure coherence approach is applied to derive a general solution for these phase-controlled HOM effects. Consequently, the quantum mystery of HOM effects, traditionally interpreted through the particle nature of quantum mechanics, is revealed as a coherent phenomenon between entangled photons via a selective choice of correlated photons.

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