What has been learnt from the analysis of the low-energy pion-nucleon data during the past three decades?
Abstract
Over twenty-five years ago, two analyses of the pion-nucleon (π N) data at low energy (i.e., for pion laboratory kinetic energy T ≤ 100 MeV) reported on the departure of the extracted scattering amplitudes, corresponding to the two elastic-scattering reactions π p π p and to the π- p charge-exchange reaction π- p π0 n, from the triangle identity, which these amplitudes fulfil if the isospin invariance holds in the hadronic part of the π N interaction. This discrepancy indicates that at least one of the following assumptions is not valid: first, that the absolute normalisation of the bulk of the low-energy π N datasets is correct; second, that any residual contributions to the corrections, which aim at the removal of the effects of electromagnetic (EM) origin from the measurements, are not significant; and third, that the isospin invariance holds in the hadronic part of the π N interaction. In view of the incompatibility of the results of the various schemes of removal of the so-called trivial EM effects at the π N threshold (T = 0 MeV), the likelihood of residual effects of EM origin in the extracted π N scattering amplitudes (from the data in the scattering region, i.e., above the π N threshold) must be reassessed. This work emphasises the importance of the development of a unified scheme for the determination of reliable EM corrections, applicable at the π N threshold and in the scattering region, in providing a resolution to the established discrepancy at low energy.
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