Indistinguishability of temporally separated pairwise two-photon state of thermal photons in Franson-type interferometry

Author:

Park Jiho,Kim Heonoh,Moon Han Seb

Abstract

AbstractThe phenomenon of Franson interference with time–energy entangled photon pairs beyond the single-photon coherence length observed upon nonlocal measurement at two space-like separated locations is of particular research interest. Herein, we determine the coherence length of temporally separated pairwise two-photon (TSPT) states of thermal photons emitted from a warm atomic ensemble in Franson-type interferometry, with the setup consisting of two spatially separated unbalanced Michelson interferometers beyond the coherence length of a thermal photon. Using a novel method of square-modulated thermal photons, we show that the sinusoidal Franson-type interference fringe of thermal photons is determined by the presence or absence of TSPT states (corresponding to the time delay between the long and short paths in Franson-type interferometry). We find that the indistinguishability of the TSPT state in the Franson-type interference is independent of the temporal separation of the thermal photons in the TSPT states.

Funder

National Research Foundation of Korea

Information Technology Research Center

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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