Isobar Model Analysis of Single Pion Production in Pion-Nucleon Collisions Below 1 BeV

Olsson, M. G.; Yodh, G.

doi:10.1103/physrevlett.10.353

Cited by 58 publications

(7 citation statements)

References 12 publications

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“…Olsson has shown that it is in excellent agreement with experiment as analyzed by Olsson and Yodh. 6 Similarly we have for the kaon-initiated re-actions T{K" +p -K° + E *°) = T(K° +p -K + + H *°) which could be expressed in terms of the isospin amplitudes A 2/ in the form A 0 = oA 2 (with the same remark about the sign convention as before). No meaningful comparison with experiment seems possible at the present time.…”

Section: T(b+m ~B'+m) = T(b+m"-b'+mmentioning

confidence: 81%

“…For example, the Olsson relation is true for the choices of 20-, 56-, or 120-dimensional representations of SU(4) or the infinite-dimensional representations of SL(4,#). The Johns on-Trie man relations and their generalizations hold with the choice of the standard 56-dimensional representation of SU (6) or the Sakita choice of 20 (or of the 70 or 700) representation; and even with baryons assigned to the representations of SL(6,#).…”

Section: (X\£r/ ® 8 and G Amentioning

confidence: 99%

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Application of Noninvariance Groups to Meson-Baryon Scattering

Kuriyan

Sudarshan

1966

Phys. Rev. Lett.

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The multiplet structure of hadrons must be related to the structure of their interactions. For multiplet structures associated with an invariance group, the interactions are to be invariant under the group; but for supermultiplet structure related to a noninvariance group the interaction structure has to be specified somewhat differently. We have shown elsewhere 1 how vertex functions may be associated with certain noninvariant generators, and shown that this leads to a variety of valid and useful predictions. We get, for example, the electromagnetic mass difference relation M(n)-M(p) = (5/ll){M(£°)-M(2 + )} which is in good agreement with experiment. In this Letter we consider the structure of scattering amplitudes within the noninvariance-group framework and deduce several relations between different amplitudes which include the Johnson-Trieman 2 relations and the Olsson 3 relation but extend their domain of validity. We establish the connection between this framework and the groups of strong-and intermediate-coupling meson theories. 4 We note that the results we obtain are independent of the specific representation to which the baryons are assigned.The characteristic noninvariance 5 group G of a system contains the invariance group K as a subgroup and is such that all states of the dynamical system constitute a single irreducible representation. We shall confine our attention to systems with baryon number unity and with K chosen to be SU(3)<8> SU J (2) (unitary symmetric pseudoscalar theory); the dynamical postulate is the identification of the meson coupling matrices A a to be the generators of G that are not conserved. The commutator of two such nonconserved generators is then a generator of the invariance group K.Let us now consider two meson-baryon scattering processes related by crossing and denote the corresponding scattering amplitudes by

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Section: T(b+m ~B'+m) = T(b+m"-b'+mmentioning

confidence: 81%

Section: (X\£r/ ® 8 and G Amentioning

confidence: 99%

Application of Noninvariance Groups to Meson-Baryon Scattering

Kuriyan

Sudarshan

1966

Phys. Rev. Lett.

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“…The importance of A production is also seen empirically in the ^-production analysis of Olsson and Yodh. 9 It is not surprising that we get such good results. We have included the important production mechanisms while, as has been shown by Carruthers, 10 the sum of the particle-exchange Born terms that we have neglected (e.g., p and A 1 1 1 1 1 1 1 1 exchange) is quite small in this channel.…”

mentioning

confidence: 87%

Inelastic Effects andπ−NResonances

Aaron

Amado

1971

Phys. Rev. Lett.

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“…Since it is known that the s-wave 7T-N forces are very weak, whereas the s-wave w-ir forces are very strong, the natural two-body configuration to consider is aN; a represents the ww 7=7=0 configuration at a mass of about 400 MeV. As a matter of fact, Brown and Singer have proposed that there is in fact a true resonance (i.e., a pole of a scattering amplitude) .^ Although much evidence has been cited in its favor, [41][42][43][44][45] the effect is noticeably absent in certain experiments such as the recent one on K e ± decays. 46 The possibility that there is an important enhancement without an actual resonance is difficult to exclude, particularly in view of the theoretical suggestion of Chew 47 that the ww phase shift may be decreasing through |TT.…”

Section: The Role Of the First Inelastic Channelmentioning

confidence: 99%

Pion-Nucleon Scattering in theP11State

Schwarz

1966

Phys. Rev.

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The Pn pion-nucleon scattering amplitude is studied in order to determine the dynamical status of the nucleon. A simple one-channel static model is constructed in which a good fit to the low-energy data is obtained with a Castillejo-Dalitz-Dyson (CDD) pole. If there is, in fact, such a pole, with the strength indicated by our model, then one must conclude that other channels play a significant, although not overwhelming, part in forming the nucleon. It is also possible to reconcile all the available information with a model containing no CDD poles in which the nucleon is formed to a good approximation in the pion-nucleon channel alone. A few ways by which one may hope to choose between the two models are discussed. It is shown how the success of certain "reciprocal bootstrap" calculations can be understood, whether or not a CDD pole is required. The large inelasticity and phase shift in the Pn pion-nucleon channel at energies of 400 to 600 MeV are probably due to coupling with the 7nriV channel, with all three particles in relative 5 waves. This latter channel seems to be significant for the properties of the 1400-MeV (Roper) resonance, but probably plays a small role in the formation of the nucleon.

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Isobar Model Analysis of Single Pion Production in Pion-Nucleon Collisions Below 1 BeV

Cited by 58 publications

References 12 publications

Application of Noninvariance Groups to Meson-Baryon Scattering

Application of Noninvariance Groups to Meson-Baryon Scattering

Inelastic Effects andπ−NResonances

Pion-Nucleon Scattering in theP11State

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