Title :
Ultra-low-noise 1 μm optical frequency comb
Author :
Kundermann, S. ; Portuondo-Campa, E. ; Lecomte, S.
Author_Institution :
Centre Suisse d´Electron. et de Microtech. (CSEM), Neuchatel, Switzerland
Abstract :
A robust optical frequency comb is realised with an Origami-10 mode-locked femtosecond laser from Onefive GmbH generating a 100 MHz pulse train at a centre wavelength of 1047 nm. The carrier-envelope offset frequency has been stabilised to a record level contributing to relative fluctuations of the optical carrier frequency of 1.1 × 10-18 at 1 s and averaging down to the 10-22 level at 10 000 s. Cycle-slip free carrier-envelope offset frequency stabilisation has been routinely achieved over 10 h. Ultra-low relative intensity noise has been measured as well and makes such a system very attractive for demanding applications where low noise and high reliability are requested.
Keywords :
fluctuations; high-speed optical techniques; laser frequency stability; laser noise; Onefive GmbH; Origami-10 locked femtosecond laser; carrier-envelope offset frequency; fluctuations; frequency 100 MHz; frequency stabilisation; optical carrier frequency; pulse train; ultra-low relative intensity noise; ultra-low-noise optical frequency comb; wavelength 1 mum to 1047 nm;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2014.1496
