A high-resolution global gravity map would provide tremendous benefits to the Earth sciences. The use of gradiometers for gravity mapping has inherent advantages over other techniques and has the potential of providing the highest spatial resolution for global surveys from orbit. Extremely sensitive superconducting gravity gradiometers (SGGs) have been developed for space applications. The present laboratory model has demonstrated a sensitivity almost two orders of magnitude better than any other gradiometer (<20 mE Hz-12/, where 1 mE identical to 10-12 m s-2 m-1 approximately=10-13 gE m-1). In preparation for a dedicated gravity mapping mission, we have proposed a flight test of a spaceworthy version of the instrument in the SHOOT (SuperFluid Helium On Orbit Transfer) dewars, which flew on the Shuttle in 1993. We have examined potential error sources for the instrument operating in the Shuttle environment. Of the largest error sources, most are motion-related. We obtained the motion of the Orbiter in six degrees of freedom by examining the SAMS (shuttle acceleration measurement system) and the CAS (calibrated ancillary system) data sets. Using this information and the measured error coupling coefficients of the laboratory SGG, we can predict the resolution with which the Earth's gravity gradient signal can be recovered on this Shuttle test flight. Although the Orbiter provides a much worse environment for the SGG than a dedicated satellite, our analysis shows that during quiet periods on the Orbiter, the ability to recover gravity data will approach the limit imposed by the instrument thermal noise


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    Title :

    Predicted performance of the superconducting gravity gradiometer on the Space Shuttle


    Additional title:

    Erwartete Leistungsfähigkeit eines supraleitenden Schwerkraft-Gradiometers im Space-Shuttle


    Contributors:
    Canavan, E.R. (author) / Moody, M.V. (author) / Paik, H.J. (author) / Shirron, P.J. (author) / DiPirro, M.J. (author)

    Published in:

    Cryogenics ; 36 , 10


    Publication date :

    1996


    Size :

    10 Seiten, 5 Quellen




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English





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