Title :
Iodine stabilized IR laser sources
Author :
Castagna, N. ; Chiodo, N. ; Lours, M. ; Holleville, David ; Lecoq, Y. ; Acef, O. ; Burck, F. Du
Author_Institution :
LNE-SYRTE, UPMC, Paris, France
Abstract :
We report on the frequency stabilization of an infrared (IR) laser emitting at 1.5 μm onto molecular iodine hyperfine transitions at 514 nm. Third harmonic generation process based on Periodically Poled Lithium Niobate non linear crystals (PPLN) is used to link the IR emission to the green region. We have developed and tested a compact experimental setup using a multi-pass iodine cell in order to meet transportable/spatial requirements. Narrow hyperfine iodine lines (FWHM ~ 300 kHz) corresponding to a quality factor Q > 109 are already detected and used for the IR sources stabilization purpose.
Keywords :
Q-factor; hyperfine structure; infrared sources; iodine; laser beams; laser frequency stability; lithium compounds; molecule-photon collisions; optical harmonic generation; spectral line narrowing; I2; IR emission; LiNBO3; PPLN; frequency 300 kHz; frequency stabilization; infrared laser; iodine stabilized IR laser sources; molecular iodine hyperfine transitions; multipass iodine cell; narrow hyperfine iodine lines; periodically poled lithium niobate nonlinear crystals; quality factor; third harmonic generation; wavelength 1.5 mum; wavelength 514 nm; Crystals; Laser stability; Laser transitions; Optical fibers; Optical harmonic generation; Spectroscopy; frequency tripling; iodine; laser frequency stabilization; metrology; molecular spectroscopy; second harmonic generation;
Conference_Titel :
European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC), 2013 Joint
Conference_Location :
Prague
DOI :
10.1109/EFTF-IFC.2013.6702149
