Möller, Jan
Jan
Möller
Fully massive tadpoles at 5-loop : reduction and difference equations
Universität Bielefeld
2012
2012-07-02T09:33:06Z
2018-07-24T13:00:50Z
bi_dissertation
https://pub.uni-bielefeld.de/record/2509818
https://pub.uni-bielefeld.de/record/2509818.json
urn:nbn:de:hbz:361-25098185
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application/pdf
Loop integrals are essential for the computation of predictions in quantum field theories like the Standard Model of elementary particle physics. For instance, in the case of anomalous dimensions of QCD or the pressure in thermal QCD we face so-called tadpole loop integrals. In this thesis we study an important subset of these integrals, the fully massive vacuum (bubble) integrals. For the first time, we consider fully massive tadpoles at the 5-loop level pioneering the way for future high-precision calculations. We have implemented a Laporta algorithm in the algebraic manipulator \texttt{FORM} using generalized recurrence relations, a combination of integration-by-parts and space-time dimensional identities. This enabled us to perform the reduction of fully massive tadpoles up to the 5-loop level to a basis of master integrals. We modified the implementation in such a way that difference equations are obtained for a large number of the yet unknown master integrals. We started to solve the system of difference equations by means of factorial series expansions.