Proton emitting source size is amplified by 24% in neutron-rich versus neutron-deficient tin collisions, revealing a beyond-mean-field short-range n-p correlation effect.
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The authors generalize their prior spherical-source method to non-spherical sources with a self-consistent treatment of Coulomb interactions and provide software for three-dimensional correlation functions.
Three-dimensional analysis of two-pion sources in Monte-Carlo simulations of Au+Au collisions at 200 GeV compared to PHENIX centrality-dependent measurements.
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Large amplification of the isospin-dependence of proton emitting source size in radioactive heavy-ion collisions: a signal of n-p correlation
Proton emitting source size is amplified by 24% in neutron-rich versus neutron-deficient tin collisions, revealing a beyond-mean-field short-range n-p correlation effect.
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A self-consistent calculation of non-spherical Bose-Einstein correlation functions with Coulomb final-state interaction
The authors generalize their prior spherical-source method to non-spherical sources with a self-consistent treatment of Coulomb interactions and provide software for three-dimensional correlation functions.
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Three-dimensional sizes and shapes of pion emission in heavy-ion collisions
Three-dimensional analysis of two-pion sources in Monte-Carlo simulations of Au+Au collisions at 200 GeV compared to PHENIX centrality-dependent measurements.