We demonstrate a new phase-locking technique for long-term and high-precision stabilization of mode-locked Er-fiber lasers by direct optical-microwave phase detection without high-speed photodiodes and mixers. The excellent locking performance reaches 2.1??10-18 at 4000-s averaging time. ? 2014 OSA.EI
Long-term phase drifts of less than a femtosecond per hour have been demonstrated in a 2 km length o...
Femtosecond mode-locked lasers have become one of the indispensable tools for spectroscopy and micro...
High data rate clock recovery is a key technology for realizing future ultrafast optical time divisi...
In this Letter, we demonstrate a fully stabilized Er: fiber frequency comb by using a fiber-based, h...
Long-term repetition frequency stabilization of passively mode-locked (ML) fiber lasers using high-f...
A passively phase-locked laser source based on compact femtosecond Er:fiber technology is introduced...
Advanced accelerators as well as 4th generation light sources require extremely precise timing distr...
The characterization of a fully stabilized mode-locked fiber laser is reported. The laser consists o...
We analyze the environmental effect on the standard phase-locking of the mode-locked laser. The mech...
Controlling the carrier envelope phase (CEP) in mode-locked lasers over practically long timescales ...
International audienceWe show that the polarization modes of a dual-frequency fiber laser can be eff...
Next generation FEL light sources like the European XFEL require timing stability of 10-20 fs betwee...
Optical frequency combs based on erbium-doped fiber lasers are attractive tools in precision metrolo...
International audienceWe demonstrate actively mode-locked operation of a fiber laser using a novel m...
International audienceFully fibered microwave-optical sources at 1.5 μm are studied experimentally. ...
Long-term phase drifts of less than a femtosecond per hour have been demonstrated in a 2 km length o...
Femtosecond mode-locked lasers have become one of the indispensable tools for spectroscopy and micro...
High data rate clock recovery is a key technology for realizing future ultrafast optical time divisi...
In this Letter, we demonstrate a fully stabilized Er: fiber frequency comb by using a fiber-based, h...
Long-term repetition frequency stabilization of passively mode-locked (ML) fiber lasers using high-f...
A passively phase-locked laser source based on compact femtosecond Er:fiber technology is introduced...
Advanced accelerators as well as 4th generation light sources require extremely precise timing distr...
The characterization of a fully stabilized mode-locked fiber laser is reported. The laser consists o...
We analyze the environmental effect on the standard phase-locking of the mode-locked laser. The mech...
Controlling the carrier envelope phase (CEP) in mode-locked lasers over practically long timescales ...
International audienceWe show that the polarization modes of a dual-frequency fiber laser can be eff...
Next generation FEL light sources like the European XFEL require timing stability of 10-20 fs betwee...
Optical frequency combs based on erbium-doped fiber lasers are attractive tools in precision metrolo...
International audienceWe demonstrate actively mode-locked operation of a fiber laser using a novel m...
International audienceFully fibered microwave-optical sources at 1.5 μm are studied experimentally. ...
Long-term phase drifts of less than a femtosecond per hour have been demonstrated in a 2 km length o...
Femtosecond mode-locked lasers have become one of the indispensable tools for spectroscopy and micro...
High data rate clock recovery is a key technology for realizing future ultrafast optical time divisi...
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