Recently a new type of spectroscopy using Zeeman shift has been developed, which aims for a large recapture range by making a dispersive-like signal obtained from the subtraction of two different circularly polarized Doppler-broadened absorption signals in the presence of a magnetic field (order of 100 G). We would like to propose another method for stabilizing a diode laser frequency onto an atomic frequency with a small tunable range in the presence of small longitudinal magnetic field (order of Gauss). A solid state diode laser is preferred as it is a good light source. Our technique has the advantages of cancellation of frequency fluctuation over side-locking and no need for phase-sensitive detection and frequency modulation over peak-locking. A subtracted SAS signal and the blocking signal are displayed on one photodiode.


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    Title :

    Saturated absorption spectroscopy with a Zeeman shift


    Contributors:
    Shim, U. (author) / Jong-An Kim, (author) / Wonho Jhe, (author)


    Publication date :

    1999-01-01


    Size :

    134709 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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