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On a New Class of Self-Referencing, 1/τ Atomic Clocks

  • 1Department of Physics, Tsinghua University, Beijing 100084

  • 2Joint Institute for Measurement Science (JMI), Tsinghua University, Beijing 100084

  • 3Department of Precision Instrument, Tsinghua University, Beijing 100084

  • 4National Institute of Metrology of China, Beijing 100013

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  • Revised Date: July 27, 2014
  • Published Date: July 31, 2014
    Abstract
  • The merit of a modern atomic clock is measured by its phase stability. A clock's absolute time-keeping uncertainty typically worsens over its operating time τ as Δτ∝√τ, with an Allan deviation of σy (τ)=Δτ/τ∝τ?1/2. Here we analyze a new class of self-referencing clocks, whose phase is locked to itself after a certain time delay. We show that the Allan deviation of such clocks decreases as 1/τ over a long and controllable operating time. This class of clocks can maintain synchronization over a prolonged period with only a fixed, almost non-increasing, absolute uncertainty, forming an ideal time-piece.
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    • References (14)
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