A transportable UV clock laser reaches 2e-16 instability using an AlGaAs/GaAs cavity and partial cancellation of photo-thermal and photo-birefringence noise from power fluctuations.
Atomic clock performance enabling geodesy below the centimetre level
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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-layer security.
citing papers explorer
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Ultra-stable transportable ultraviolet clock laser using cancellation between photo-thermal and photo-birefringence noise
A transportable UV clock laser reaches 2e-16 instability using an AlGaAs/GaAs cavity and partial cancellation of photo-thermal and photo-birefringence noise from power fluctuations.
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Quantum Protocols for Time Synchronisation and Distribution: A Critical Assessment
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-layer security.