Elastic scattering of low energy pions by nuclei and the in-medium isovector {pi}N amplitude

Measurements of elastic scattering of 21.5 MeV {pi}{sup {+-}} by Si, Ca, Ni, and Zr were made by using a single-arm magnetic spectrometer. Absolute calibration was made by parallel measurements of Coulomb scattering of muons. Parameters of a pion-nucleus optical potential were obtained from fits to...

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Bibliographic Details
Published in:Physical review. C, Nuclear physics Nuclear physics, 2005-09, Vol.72 (3)
Main Authors: Friedman, E., Kritchman, S., Yaari, G., Bauer, M., Breitschopf, J., Clement, H., Denz, H., Doroshkevich, E., Erhardt, A., Meier, R., Wagner, G. J., Hofman, G.J.
Format: Article
Language:English
Subjects:
ANGULAR DISTRIBUTION
CALCIUM 40 TARGET
CALIBRATION
CHIRAL SYMMETRY
CHIRALITY
COULOMB SCATTERING
ENERGY DEPENDENCE
ISOVECTORS
MEV RANGE
MUONS
NICKEL 58 TARGET
NUCLEAR MATTER
NUCLEAR PHYSICS AND RADIATION PHYSICS
OPTICAL MODELS
PION REACTIONS
PION-NUCLEON INTERACTIONS
PIONIC ATOMS
PIONS
POTENTIALS
S WAVES
SCATTERING AMPLITUDES
SILICON 28 TARGET
ZIRCONIUM 90 TARGET
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Summary:Measurements of elastic scattering of 21.5 MeV {pi}{sup {+-}} by Si, Ca, Ni, and Zr were made by using a single-arm magnetic spectrometer. Absolute calibration was made by parallel measurements of Coulomb scattering of muons. Parameters of a pion-nucleus optical potential were obtained from fits to all eight angular distributions put together. The anomalous s-wave repulsion known from pionic atoms is clearly observed and could be removed by introducing a chiral-motivated density dependence of the isovector scattering amplitude, which also greatly improved the fits to the data. The empirical energy dependence of the isoscalar amplitude also improves the fits to the data but, contrary to what is found with pionic atoms, on its own is incapable of removing the anomaly.
ISSN:0556-2813
1089-490X
DOI:10.1103/PhysRevC.72.034609