Abstract
Few-mode fibers (FMFs) have been recently employed in classical optical communication to increase the data transmission capacity. Here we explore the capability of employing FMF for long distance quantum communication. We experimentally distribute photon pairs in the forms of time-bin and polarization entanglement over a 1-km-long FMF. We find the time-bin entangled photon pairs maintain their high degree of entanglement, no matter what type of spatial modes they are distributed in. For the polarization entangled photon pairs, however, the degree of entanglement is maintained when photon pairs are distributed in LP01 mode but significantly declines when photon pairs are distributed in LP11 mode due to a mode coupling effect in LP11 mode group. We propose and test a remedy to recover the high degree of entanglement. Our study shows, when FMFs are employed as quantum channels, selection of spatial channels and degrees of freedom of entanglement should be carefully considered.
Highlights
Few-mode fibers (FMFs) have been recently employed in classical optical communication to increase the data transmission capacity
The entangled photon pair source is based on pulse pumped spontaneous four wave mixing (SFWM) and emits signal and idler photon pairs in the 1550 nm band, which are entangled in certain degrees of freedom such as time or
We have studied the distribution of entangled photon pairs over FMF
Summary
Few-mode fibers (FMFs) have been recently employed in classical optical communication to increase the data transmission capacity. Distribution of time-bin entangled photon pairs over FMF. The time-bin entangled photon pair source shown in Fig. 2(a) is based on pulse pumped SFWM process in a 300-m-long dispersion-shifted fiber (DSF), which is similar to the source reported ionusrleyf.c4rIenatSeFqWuaMntupmrocmesesc,htawnoicpahllyotcoonrsreolafttehdessitgrnoanlganpdumidplearrpehaontonnihpilaaitresd.
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