Frequency Measurement System of Optical Clocks Without a Flywheel Oscillator

Frequency Measurement System of Optical Clocks Without a Flywheel Oscillator

We developed a system for the remote frequency comparison of optical clocks. The system does not require a flywheel oscillator at the remote end, making it possible to evaluate optical frequencies even in laboratories, where no stable microwave reference, such as an Rb clock, a Cs clock, or a hydrog...

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Veröffentlicht in:IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 2016-12, Vol.63 (12), p.2231-2236
Hauptverfasser: Fujieda, Miho, Ido, Tetsuya, Hachisu, Hidekazu, Gotoh, Tadahiro, Takiguchi, Hiroshi, Hayasaka, Kazuhiro, Toyoda, Kenji, Yonegaki, Kenji, Tanaka, Utako, Urabe, Shinji
Format: Artikel
Sprache:eng
Schlagworte:
Acoustics
Clocks
Flywheels
Frequency control
Frequency measurement
Hydrogen masers
Microwave antennas
Optical amplifiers
Optical frequency
optical frequency conversion
Optical variables control
Oscillators
Satellite antennas
Signal generation
Stimulated emission
Transfer stations
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Zusammenfassung:We developed a system for the remote frequency comparison of optical clocks. The system does not require a flywheel oscillator at the remote end, making it possible to evaluate optical frequencies even in laboratories, where no stable microwave reference, such as an Rb clock, a Cs clock, or a hydrogen maser exists. The system is established by the integration of several systems: a portable carrier-phase two-way satellite frequency transfer station and a microwave signal generation system by an optical frequency comb from an optical clock. The measurement was as quick as a conventional method that employs a local microwave reference. We confirmed the system uncertainty and instability to be at the low 10 -15 level using an Sr lattice clock.
ISSN:0885-3010
1525-8955
DOI:10.1109/TUFFC.2016.2615119