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Remote quantum clock synchronization without synchronized clocks

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arxiv 1709.08423 v1 pith:JMEDFC2M submitted 2017-09-25 quant-ph physics.atom-ph

Remote quantum clock synchronization without synchronized clocks

classification quant-ph physics.atom-ph
keywords quantumsynchronizationclockentanglementphaseprotocolsclockscurrent
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A major outstanding problem for many quantum clock synchronization protocols is the hidden assumption of the availability of synchronized clocks within the protocol. In general, quantum operations between two parties do not have consistent phase definitions of quantum states, which introduce an unknown systematic phase error. We show that despite prior arguments to the contrary, it is possible to remove this unknown phase via entanglement purification. This closes the loophole for entanglement based quantum clock synchronization protocols, which are most compatible with current photon based long-distance entanglement distribution schemes. Starting with noisy Bell pairs, we show that the scheme produces a singlet state for any combination of (i) differing basis conventions for Alice and Bob; (ii) an overall time offset in the execution of the purification algorithm; and (iii) the presence of a noisy channel. Error estimates reveal that better performance than existing classical Einstein synchronization protocols should be achievable using current technology.

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Cited by 1 Pith paper

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  1. Quantum Protocols for Time Synchronisation and Distribution: A Critical Assessment

    quant-ph 2026-04 unverdicted novelty 3.0

    Quantum time synchronization protocols do not provide a near-term replacement for classical methods in most applications because time transfer precision remains the limiting factor, though they add value for physical-...