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arxiv: 1912.08016 · v2 · pith:NS4ZR6QC · submitted 2019-12-17 · math-ph · hep-th· math.MP

Transcendental equations of the running coupling

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classification math-ph hep-thmath.MP
keywords equationslooporderstranscendentalbetacouplingequationfirst
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The running coupling of a generic field theory can be described through a separable differential equation involving the corresponding $\beta$-function. Only the first loop order can be solved analytically in terms of well-known functions, all further loop orders lead to transcendental equations. While obscure nowadays, many analytical methods have been devised to study them, most specifically the Lagrange-B\"urmann formula. In this article we discuss the structure of transcendental equations that take place at various loop orders. Beyond the first two loop orders, these equations are simplified by applying an optimal Pade approximant on the $\beta$-function. In general, these lead to generalizations of Lambert's equation, the solutions of which are presented in terms of a power series.

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