Radiative QED corrections to the lepton anomaly from four-loop vacuum polarization insertions with three identical leptons
Analytical expressions for the tenth order electromagnetic corrections to the lepton ($L=e, ~\mu $ and $\tau$) anomaly $a_L$ are derived explicitly for a class of Feynman diagrams with insertions of the vacuum polarization operator consisting of four closed lepton loops. We consider a particular cas...
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Zusammenfassung: | Analytical expressions for the tenth order electromagnetic corrections to the
lepton ($L=e, ~\mu $ and $\tau$) anomaly $a_L$ are derived explicitly for a
class of Feynman diagrams with insertions of the vacuum polarization operator
consisting of four closed lepton loops. We consider a particular case when one
loop is formed by the lepton $L$ of the same kind as the one under
consideration, the other three loops being formed by leptons $\ell\neq L$. The
method is based on the consecutive application of dispersion relations for the
polarization operator and the Mellin--Barnes transform for the propagators of
massive particles. The result is expressed in terms of the mass ratio
$r=m_\ell/m_L$. We investigate the behaviour of the exact analytical
expressions as $r\to 0$ and $r\to \infty$ and compare them with the
corresponding asymptotic expansions known in the literature. |
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DOI: | 10.48550/arxiv.2406.16645 |