The variable phase method is extended to noncentral potentials to compute partial-wave nucleon-nucleon correlation functions with the Reid soft-core potential for Gaussian sources of varying sizes.
Femtoscopy correlations of kaons in $Pb + Pb$ collisions at LHC within hydrokinetic model
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abstract
We provide, within the hydrokinetic model, a detailed investigation of kaon interferometry in $Pb+Pb$ collisions at LHC energy ($\sqrt{s_{NN}} = 2.76$ TeV). Predictions are presented for 1D interferometry radii of $K^0_SK^0_S$ and $K^{\pm}K^{\pm}$ pairs as well as for 3D femtoscopy scales in out, side and long directions. The results are compared with existing pion interferometry radii. We also make predictions for full LHC energy.
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EPOS3 simulations of 200 GeV Au+Au collisions find no clear transverse-mass scaling of Lévy scale parameters across pions, kaons and protons, with proton power-law exponents higher than those for mesons.
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Extended Variable Phase Method for Spin-1/2 Correlation Functions
The variable phase method is extended to noncentral potentials to compute partial-wave nucleon-nucleon correlation functions with the Reid soft-core potential for Gaussian sources of varying sizes.
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Particle species dependence of femtoscopic source parameters in high-energy nuclear collisions
EPOS3 simulations of 200 GeV Au+Au collisions find no clear transverse-mass scaling of Lévy scale parameters across pions, kaons and protons, with proton power-law exponents higher than those for mesons.