Litcius/Paper detail

The origin of anticorrelation for photon bunching on a beam splitter

Byoung S. Ham

2020Scientific Reports41 citationsDOIOpen Access PDF

Abstract

The Copenhagen interpretation, in which the core concepts are Heisenberg's uncertainty principle and nonlocal EPR correlation, has been long discussed. Second-order anticorrelation in a beam splitter represents the origin of these phenomena and cannot be achieved classically. Here, the anticorrelation of nonclassicality in a beam splitter is interpreted using the concept of coherence. Unlike the common understanding of photons having a particle nature, anticorrelation is rooted in the wave nature of coherence optics, described by coherence optics, wherein quantum superposition between two input fields plays a key role. This interpretation may pose fundamental questions about the nature of nonclassicality and pave a road to coherence-based quantum information.

Topics & Concepts

Beam splitterPhysicsCoherence (philosophical gambling strategy)Superposition principlePhotonUncertainty principleQuantum opticsDegree of coherenceOpticsCoherence theoryQuantum mechanicsQuantumCoherence lengthLaserSuperconductivityQuantum Mechanics and ApplicationsQuantum Information and CryptographySpectroscopy and Quantum Chemical Studies
The origin of anticorrelation for photon bunching on a beam splitter | Litcius