This paper investigates the possible application of periodic orbit control maneuvers for so-called evolved-LISA (eLISA) missions, i.e., missions for which the constellation arm lengths and mean distance from the Earth are substantially reduced. We find that for missions with arm lengths of 106 km and Earth-trailing distance ranging from approx. 12deg to 20deg over the science lifetime, the occasional use of the spacecraft micro-Newton thrusters for constellation configuration maintenance should be able to essentially eliminate constellation distortion caused by Earth-induced tidal forces at a cost to science time of only a few percent. With interior angle variation kept to approx. +/-0:1deg, the required changes in the angles between the laser beam pointing directions for the two arms from any spacecraft could be kept quite small. This would considerably simplify the apparatus necessary for changing the transmitted beam directions.


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    Title :

    Possible Periodic Orbit Control Maneuvers for an eLISA Mission


    Contributors:

    Conference:

    Possible Periodic Orbit Control Maneuvers for an eLISA Mission ; 2012 ; Paris, France


    Publication date :

    2012-05-21


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English





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