Quantum chromodynamics based isovector isoscolar particle mixing arising out of isospin violating quark mass differences has been used to construct a new charge-symmetry breaking Λ-N interaction element. It appears that vector meson exchanges between N and a physical Λ rather than pseudoscalar exchanges provide the largest contribution to explain the binding energy difference between the mirror hyper-nuclei ΛHe4 and ΛH4. Prediction of the model to Λn and Λp scattering lengths have been compared with those obtained from the combined analysis of ΛN scattering and s-shell hyperfragment data. We find satisfactory agreement of our results
International audienceBackground: Although SU(2) isospin symmetry is generally assumed in the basic ...
The A = 4 ..lambda..-hypernuclei provide a rich source of information about the s-wave properties of...
In this work, the different exchange freedom, one gloun, one pion or Goldstone boson, in constituent...
The binding energy differences of the valence proton and neutron of the mirror nuclei, 15O-15N, 17F-...
Charge symmetry breaking (CSB) in the Lambda-nucleon strong interaction generates a charge dependenc...
Charge symmetry can be considered as an approximate symmetry in nuclear structure and interactions. ...
We utilize the experimentally known difference of the Λ separation energies of the mirror hypernucle...
AbstractThe large charge symmetry breaking (CSB) implied by the Λ binding energy difference ΔBΛ4(0g....
We present Λ separation energies for light hypernuclei based on chiral hyperon-nucleon interactions ...
We report on ab initio no-core shell model calculations of the mirror. hypernuclei H-4(Lambda) and H...
Charge symmetry breaking in the A = 4 hypernuclear system is reviewed. The data on binding energies ...
Charge symmetry breaking in the A = 4 hypernuclear system is reviewed. The data on binding energies ...
Isospin symmetry breaking in the quark condensates, $ \not= $, is a fundamental parameter in both th...
Using a quark model, we study the effect of charge symmetry breaking on the valence quark distributi...
The role of ρ-ω mixing as a mechanism for charge-symmetry violation in the nucleon-nucleon system is...
International audienceBackground: Although SU(2) isospin symmetry is generally assumed in the basic ...
The A = 4 ..lambda..-hypernuclei provide a rich source of information about the s-wave properties of...
In this work, the different exchange freedom, one gloun, one pion or Goldstone boson, in constituent...
The binding energy differences of the valence proton and neutron of the mirror nuclei, 15O-15N, 17F-...
Charge symmetry breaking (CSB) in the Lambda-nucleon strong interaction generates a charge dependenc...
Charge symmetry can be considered as an approximate symmetry in nuclear structure and interactions. ...
We utilize the experimentally known difference of the Λ separation energies of the mirror hypernucle...
AbstractThe large charge symmetry breaking (CSB) implied by the Λ binding energy difference ΔBΛ4(0g....
We present Λ separation energies for light hypernuclei based on chiral hyperon-nucleon interactions ...
We report on ab initio no-core shell model calculations of the mirror. hypernuclei H-4(Lambda) and H...
Charge symmetry breaking in the A = 4 hypernuclear system is reviewed. The data on binding energies ...
Charge symmetry breaking in the A = 4 hypernuclear system is reviewed. The data on binding energies ...
Isospin symmetry breaking in the quark condensates, $ \not= $, is a fundamental parameter in both th...
Using a quark model, we study the effect of charge symmetry breaking on the valence quark distributi...
The role of ρ-ω mixing as a mechanism for charge-symmetry violation in the nucleon-nucleon system is...
International audienceBackground: Although SU(2) isospin symmetry is generally assumed in the basic ...
The A = 4 ..lambda..-hypernuclei provide a rich source of information about the s-wave properties of...
In this work, the different exchange freedom, one gloun, one pion or Goldstone boson, in constituent...