Title :
Ultrastable Frequency Dissemination via Optical Fiber at NICT
Author :
Fujieda, Miho ; Kumagai, Motohiro ; Gotoh, Tadahiro ; Hosokawa, Mizuhiko
Author_Institution :
Nat. Inst. of Inf. & Commun. Technol., Koganei
fDate :
4/1/2009 12:00:00 AM
Abstract :
We have developed a radio-frequency (RF) dissemination system using optical fibers. The phase noise induced during the transmission is actively cancelled by the compensation system with a voltage-controlled crystal oscillator. A first proving test was conducted on an urban telecom fiber link with a length of 10 km, and a frequency stability of 1 X 10-17 was achieved at an averaging time of one day. As an application of ultrastable frequency dissemination, a 1-GHz signal based on a cryogenic sapphire oscillator was transferred through a 25-km fiber and used as a microwave reference for an optical frequency comb. A fractional frequency stability of an ultranarrow clock laser for a Ca+ ion optical frequency standard was measured by the comb as 9 X 10-15 at 1 s, which included both laser stability and transferred reference stability.
Keywords :
cryogenic electronics; crystal oscillators; frequency standards; interference suppression; optical fibre networks; optical fibres; cryogenic sapphire oscillator; frequency stability; laser stability; optical fiber; optical frequency comb; phase noise; radio-frequency dissemination system; transferred reference stability; ultrastable frequency dissemination; urban telecom fiber link; voltage-controlled crystal oscillator; Fiber noise cancellation; frequency stability; optical fiber applications; optical fiber link; phase measurement; radio frequency (RF) transfer;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2008.2008088
