Moritz Bissegger scite author profile

We investigate radiative corrections to K → 3π decays. In particular, we extend the non-relativistic framework developed recently to include real and virtual photons and show that, in a well-defined power counting scheme, the results reproduce corrections obtained in the relativistic calculation. Real photons are included exactly, beyond the soft-photon approximation, and we compare the result with the latter. The singularities generated by pionium near threshold are investigated, and a region is identified where standard perturbation theory in the fine structure constant α may be applied. We expect that the formulae provided allow one to extract S-wave ππ scattering lengths from the cusp effect in these decays with high precision.

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Chiral logarithms beyond two loops

Bissegger

Fuhrer

2007

Physics Letters B

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We investigate two specific Green functions in the framework of chiral perturbation theory. We show that, using analyticity and unitarity, their leading logarithmic singularities can be evaluated in the chiral limit to any desired order in the chiral expansion, with a modest calculational cost. The claim is illustrated with an evaluation of the leading logarithm for the scalar two-point function to five-loop order.Key words: Chiral symmetries, Chiral logarithms PACS: 11.30.Rd, 11.55.Bq Chiral logarithms in the chiral limitIn this article, we discuss the structure of chiral logarithms in the effective low-energy theory of QCD, chiral perturbation theory [1,2]. To simplify the discussion, we consider the case of two flavours u and d. The relevant effective Lagrangian is explicitly known at next-to-next-to-leading order in the chiral expansion [2][3][4]. Its structure iswhere the indices stand for the chiral order of the Lagrangian. We count L n a quantity of order p

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Cusps in KL→3π decays

Bissegger

Fuhrer

Gasser

et al. 2008

Progress in Particle and Nuclear Physics

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A renormalization group analysis of leading logarithms in ChPT

Bissegger

Fuhrer

2007

Eur. Phys. J. C

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CP, T and CPT in the non-perturbative formulation of chiral gauge theories

Hasenfratz

Bissegger

2005

Physics Letters B

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