Phase Mapping of Remote Clocks Using Quantum Entanglement
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Recently, we have shown how the phase of an electromagnetic field can be determined by measuring the population of either of the two states of a two-level atomic system excited by this field, via the so-called Bloch-Siegert oscillation resulting from the interference between the co- and counter-rotating excitations. Here, we show how a degenerate entanglement, created without transmitting any timing signal, can be used to teleport this phase information. This phase-teleportation process may be applied to achieve absolute phase-mapping of remote clocks.
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Quantum Clock Synchronization Networks: A Survey
A survey that organizes quantum clock synchronization protocols, quantum resources, performance constraints, and security aspects for distributed quantum systems.
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