Title :
Phase-locking of a 2.7 terahertz quantum cascade laser to a mode-locked Er-fiber laser
Author :
Santarelli, G. ; Barbieri, S. ; Gellie, P. ; Ding, L. ; Maineult, W. ; Sirtori, C. ; Colombelli, R. ; Beere, H. ; Ritchie, D.
Author_Institution :
LNE-SYRTE, UPMC, Paris, France
Abstract :
We have used the Pockels effect in ZnTe to demonstrate that the frequency and the phase of a 2.7Terahertz Quantum Cascade Laser can be actively stabilized to the n-th harmonic of the 90MHz repetition rate of a commercial, mode-locked Er-doped fiber-laser. The beating between the stabilized QCL frequency and the harmonic of the repetition rate yielded a signal-to-noise ratio of 80dB in 1Hz bandwidth (limited by the resolution of our spectrum analyzer). The technique demonstrated is inherently broadband, in the sense that it allows to directly stabilize any QCL source provided that its frequency is within the spectral bandwidth of the fs-laser (~5THz).
Keywords :
Pockels effect; erbium; laser mode locking; optical fibre amplifiers; quantum cascade lasers; Er; Pockels effect; frequency 2.7 THz; mode-locked Er-fiber laser; phase-locking terahertz quantum cascade laser; stabilized QCL frequency; Laser mode locking; Optical beams; Optical fibers; Optimized production technology; Quantum cascade lasers; Radio frequency; Ultrafast optics;
Conference_Titel :
Frequency Control Symposium (FCS), 2010 IEEE International
Conference_Location :
Newport Beach, CA
Print_ISBN :
978-1-4244-6399-2
DOI :
10.1109/FREQ.2010.5556342
