Abstract We present a compact atomic frequency standard based on the interrogation of magnetically trapped 87Rb atoms. Two photons, in the microwave and radiofrequency domain excite the atomic transition. At a magnetic field of 3.23G this transition from ∣F =1, m F =−1〉 to ∣F =2, m F =1〉 is 1st order insensitive to magnetic field variations. Long Ramsey interrogation times can thus be achieved, leading to a projected stability in the low 10−13 at 1s. This makes this device a viable alternative to LITE and HORACE as a good candidate for replacing or complementing the rubidium frequency standards and passive hydrogen masers already on board of the GPS, GLONASS, and GALILEO satellites. Here we present preliminary results. We use an atom chip to cool and trap the atoms. A coplanar waveguide is integrated to the chip to carry the Ramsey interrogation signal, making the physics package potentially as small as (5cm)3. We describe the experimental apparatus and show preliminary Ramsey fringes of 1.25Hz linewidth. We also show a preliminary frequency stability σ y =1.5×10−12 τ −1/2 for 10< τ <103 s. This represents one order of magnitude improvement with respect to previous experiments.


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    Title :

    Compact frequency standard using atoms trapped on a chip


    Contributors:

    Published in:

    Advances in Space Research ; 47 , 2 ; 247-252


    Publication date :

    2010-04-12


    Size :

    6 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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