Localization and delocalization dynamics of photons in linearly coupled   cavity arrays

Nilakantha Meher; S. Sivakumar

arXiv:1610.08275·quant-ph·October 27, 2016

Localization and delocalization dynamics of photons in linearly coupled cavity arrays

Nilakantha Meher, S. Sivakumar

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TL;DR

This paper investigates how two photons behave in a linearly coupled cavity array, focusing on how entanglement and initial phase influence their localization or delocalization over time.

Contribution

It elucidates the role of entanglement and initial phase in photon localization and delocalization dynamics within cavity arrays, providing new insights into quantum photon transport.

Findings

01

Entanglement affects photon localization and delocalization.

02

Initial phase determines the evolution pattern of photon states.

03

Photon dynamics depend on initial quantum correlations.

Abstract

Localization and delocalization of two photons in an array of cavities are examined. Role of entanglement and relative phase of the initial state in the occurrence of localization or delocalization during time evolution is elucidated.

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Taxonomy

TopicsQuantum optics and atomic interactions · Mechanical and Optical Resonators · Photonic and Optical Devices