AbstractCosmic strings are topological defects which were generated at a transition phase of the very early Universe and are probably responsible for large-scale structure forming. However, they may pull through all history and exist in the recent epoch. Thus, they can have influence for the recent Universe interacting with different objects. We consider the cosmic string behavior in the vicinity of a spinning black hole by means of a numerical simulation. Here we present preliminary results of this work via a comparison of cosmic string and magnetic flux tube behavior in the Kerr metric. Such an approach follows from the similarity of the equations which describe these objects. Therefore, many aspects of this behavior may be comparable.It turns out that the cosmic string behavior at an early stage copies the flux tube movement in some degree. Involved in differential rotation, the central part of the cosmic string starts to lose energy and angular momentum due to string braking. Stretching and twisting around the event horizon, the central part of the string gains negative energy in the ergosphere. To compensate these losses, positive energy is subsequently generated and apparently can be extracted from the ergosphere as in the flux tube case. Because of an increase of the numerical errors the code breaks down near the event horizon and only initial stages of the negative energy creation can be observed. In comparison with the cosmic string, further simulations of the flux tube behavior clearly demonstrate an energy extraction process which is attended by relativistic jet forming. Consequently, within the frame of direct analogy, we consider our result as the very beginning of cosmic string jet formation in Kerr geometry.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Comparison of magnetic flux tube and cosmic string behavior in Kerr metric


    Contributors:
    Dyadechkin, S.A. (author) / Semenov, V.S. (author) / Biernat, H.K. (author) / Penz, T. (author)

    Published in:

    Advances in Space Research ; 42 , 3 ; 565-571


    Publication date :

    2007-06-27


    Size :

    7 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




    PLUG, FLARELESS TUBE, METRIC

    SAE Technical Papers | 2000


    Radii-Tube Bend, Metric

    SAE Technical Papers | 2015


    PLUG, FLARELESS TUBE, METRIC

    SAE Technical Papers | 2015


    UNION, FLARELESS TUBE, METRIC

    SAE Technical Papers | 2000


    UNION, BULKHEAD, FLARELESS TUBE, METRIC

    SAE Technical Papers | 2015