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| Dissertation / PhD Thesis/Internal Report | DESY-2014-02815 |
2014
Hamburg
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Please use a persistent id in citations: doi:10.3204/DESY-THESIS-2014-014
Report No.: DESY-THESIS-2014-014
Abstract: The topic of the present thesis is the time evolution of Primordial Magnetic Fields which have been generated in the Early Universe. Assuming this so-called Cosmological Scenario of magnetogenesis to be true, it is shown in the following that this would account for the present day Extragalactic Magnetic Fields. This is particularly important in light of recent gamma ray observations which are used to derive a lower limit for the corresponding magnetic field strength, even though also an alternative approach, claiming instead that these observations are due to interactions with the Intergalactic Medium, is possible and will be tested here with Monte Carlo simulations.In order to describe the aforementioned evolution of Primordial Magnetic Fields, a set of general Master Equations for the spectral magnetic, kinetic and helical components of the system are derived and then solved numerically for the Early Universe. This semi-analytical method allows it to perform a full quantitative study for the time development of the power spectra, in particular by fully taking into account the backreaction of the turbulent medium onto the magnetic fields.Applying the formalism to non-helical Primordial Magnetic Fields created on some characteristic length measure, it will be shown that on large scales $L$ their spectrum builds up a slope which behaves as $B \sim L^{-\frac{5}{2}}$ and governs the evolution of the coherence (or integral) scale. In addition, the claim of equipartition between the magnetic and the kinetic energy is found to be true. Extending the analysis to helical magnetic fields, it is observed that the time evolution changes dramatically, hence confirming quantitatively that an Inverse Cascade, i.e. an efficient transport of energy from small to large scales, as predicted in previous works, indeed does take place.
Keyword(s): Dissertation
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