Intracavity iodine cell spectroscopy with an extended-cavity laserdiode around 633 nm |
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Authors: | Zarka A Chartier J-M Aman J Jaatinen E |
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Affiliation: | Bur. Int. des Poids et Mesures, Sevres; |
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Abstract: | The purpose of the work described was to develop a tunable laser diode which is as easy to use as a He-Ne laser stabilized on iodine. The particularity of this experiment is the use of I2 cell placed inside the extended cavity laser (ECL). The experimental set-up mounted takes the form of a lambdameter which gives the wavelength to one part in 106, a Fabry-Perot (FP) interferometer for mode analysis and a beat-frequency measurement system. The FP interferometer has the particular feature of a second I2 cell which makes it possible to detect the iodine transitions by simple visual inspection of an oscilloscope. Many transitions, some much more intense than the usual R(127)11-5 transition, are under study. We worked mainly on P(33) 6-3 since this is inside the range of our beat-frequency system. Results are promising: the free running relative frequency stability is about three parts in 1010 and the locked-laser relative frequency stability about three parts in 1011 after 80 s. This is already good enough for use as a wavelength standard for length and for interferometric measurement |
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