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W3198385811 abstract "Event synchronization is a ubiquitous task, with applications ranging from 5G technology to industrial automation and smart power grids. The emergence of quantum communication networks will further increase the demand for precise synchronization in the optical and electronic domains, which implies significant resource overhead, such as the requirement for ultrastable clocks or additional synchronization lasers. Here, we show how temporal correlations of photons may be harnessed for synchronization in quantum networks. We achieve stable synchronization jitter $<68$ ps with as few as 44 correlated detection events per 100-ms data package and demonstrate feasibility in realistic emulated high-loss link scenarios, including atmospheric turbulence. In contrast to previous work, this is accomplished without any external timing reference and only simple crystal oscillators. Our approach replaces the optical and electronic transmission of timing signals with classical communication and computer-aided postprocessing. It can be easily integrated into a wide range of quantum communication networks and could pave the way to future applications in entanglement-based secure time transmission." @default.
W3198385811 created "2021-09-13" @default.
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W3198385811 creator A5056847237 @default.
W3198385811 creator A5090525963 @default.
W3198385811 date "2023-05-25" @default.
W3198385811 modified "2023-10-10" @default.
W3198385811 title "Clock Synchronization with Correlated Photons" @default.
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W3198385811 doi "https://doi.org/10.1103/physrevapplied.19.054082" @default.
W3198385811 hasPublicationYear "2023" @default.
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