Providing 10^ Short-Term Stability of a 1.5- \mu\hbox Laser to Optical Clocks

We report on transferring 10 -16 -level fractional frequency stability of a "master laser" operated at 1.5 μm to a "slave laser" operated at 698 nm, using a femtosecond fiber comb as transfer oscillator. With the 698-nm laser, the 1 S 0 - 3 P 0 clock transition of 87 Sr was resol...

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Veröffentlicht in:IEEE transactions on instrumentation and measurement 2013-06, Vol.62 (6), p.1556-1562
Hauptverfasser: Hagemann, C., Grebing, C., Kessler, T., Falke, S., Lemke, N., Lisdat, C., Schnatz, H., Riehle, F., Sterr, U.
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container_end_page 1562
container_issue 6
container_start_page 1556
container_title IEEE transactions on instrumentation and measurement
container_volume 62
creator Hagemann, C.
Grebing, C.
Kessler, T.
Falke, S.
Lemke, N.
Lisdat, C.
Schnatz, H.
Riehle, F.
Sterr, U.
description We report on transferring 10 -16 -level fractional frequency stability of a "master laser" operated at 1.5 μm to a "slave laser" operated at 698 nm, using a femtosecond fiber comb as transfer oscillator. With the 698-nm laser, the 1 S 0 - 3 P 0 clock transition of 87 Sr was resolved with a Fourier-limited linewidth of 1.5 Hz (before: 10 Hz). Potential noise sources contributed by the frequency comb are discussed in detail.
doi_str_mv 10.1109/TIM.2013.2242597
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subjects Atomic clocks
Clocks
femtosecond frequency combs
frequency control
Laser noise
Laser stability
Laser transitions
Measurement by laser beam
optical phase-locked loops
stability transfer
Thermal stability
transfer oscillator
title Providing 10^ Short-Term Stability of a 1.5- \mu\hbox Laser to Optical Clocks
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