Density dependence of the s-wave repulsion in pionic atoms

E. Friedman

doi:10.1016/S0375-9474(02)01126-0

Density dependence of the s-wave repulsion in pionic atoms

E. Friedman^*

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

Several mechanisms of density dependence of the s-wave repulsion in pionic atoms, beyond the conventional model, are tested by parameter fits to a large (106 points) set of data from ¹⁶O to ²³⁸U, including 'deeply bound' states in ²⁰⁵Pb. Special attention is paid to the proper choice of nuclear density distributions. A density-dependent isovector scattering amplitude suggested recently by Weise to result from a density dependence of the pion decay constant is introduced and found to account for most of the so-called anomalous repulsion. The presence of such an effect might indicate partial chiral symmetry restoration in dense matter. The anomalous repulsion is fully accounted for when an additional relativistic impulse approximation term is included in the potential.

Original language	English
Pages (from-to)	117-130
Number of pages	14
Journal	Nuclear Physics A
Volume	710
Issue number	1-2
DOIs	https://doi.org/10.1016/S0375-9474(02)01126-0
State	Published - 4 Nov 2002

Keywords

Chiral restoration
Pionic atoms
s-wave repulsion

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10.1016/S0375-9474(02)01126-0

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abstract = "Several mechanisms of density dependence of the s-wave repulsion in pionic atoms, beyond the conventional model, are tested by parameter fits to a large (106 points) set of data from 16O to 238U, including 'deeply bound' states in 205Pb. Special attention is paid to the proper choice of nuclear density distributions. A density-dependent isovector scattering amplitude suggested recently by Weise to result from a density dependence of the pion decay constant is introduced and found to account for most of the so-called anomalous repulsion. The presence of such an effect might indicate partial chiral symmetry restoration in dense matter. The anomalous repulsion is fully accounted for when an additional relativistic impulse approximation term is included in the potential.",

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AB - Several mechanisms of density dependence of the s-wave repulsion in pionic atoms, beyond the conventional model, are tested by parameter fits to a large (106 points) set of data from 16O to 238U, including 'deeply bound' states in 205Pb. Special attention is paid to the proper choice of nuclear density distributions. A density-dependent isovector scattering amplitude suggested recently by Weise to result from a density dependence of the pion decay constant is introduced and found to account for most of the so-called anomalous repulsion. The presence of such an effect might indicate partial chiral symmetry restoration in dense matter. The anomalous repulsion is fully accounted for when an additional relativistic impulse approximation term is included in the potential.

KW - Chiral restoration

KW - Pionic atoms

KW - s-wave repulsion

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Density dependence of the s-wave repulsion in pionic atoms

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Keywords

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