Isfahan University of Technology,
The Physics Society of IranIranian Journal of Physics Research1682-695722420230220The effect of phenomenological Λα potentials in (_ΛΛ^6)He hypernuclei by using modern ΛΛ potential derived from lattice QCDThe effect of phenomenological Λα potentials in (_ΛΛ^6)He hypernuclei by using modern ΛΛ potential derived from lattice QCD701709331510.47176/ijpr.22.4.11408FAFaisal EtminanDepartment of Physics, University of Birjand, Birjand, Iran0000-0002-8705-871XSeyyede Farimah FarsadDepartment of Physics, University of Birjand, Birjand, IranJournal Article20220129Recently, the ΛΛ potential at nearly physical quark masses has been calculated in the lattice QCD simulations by the HAL QCD Collaboration which are the most consistent potential with the experimental data. In this study making use of this ΛΛ interaction the binding energy and the radius matter for the ground state of hypernucleus (_ΛΛ^6)He is calculated via solving the coupled Faddeev equations. Here, for the Λα interaction; three different and common types of interactions, the Isle-type potential, the single Gaussian potential and the Maeda-Schmidt potential are examined. Numerical analyzes for (_ΛΛ^6)He using three ΛΛ interaction models and three models of phenomenological Λα interaction lead to the values of ground state energy between 7.197 and 8.408 MeV, and the value of the radius of matter in the range of 1.731 to 1.954 fm. Numerical results show that the minimum value of ground state binding energy, which is closest to the experimental value, occurs when one uses the HAL QCD ΛΛ potential at lattice time t⁄a=12 and the MS phenomenological type Λα potential. Also, the geometrical properties of (_ΛΛ^6)He system are investigated.Recently, the ΛΛ potential at nearly physical quark masses has been calculated in the lattice QCD simulations by the HAL QCD Collaboration which are the most consistent potential with the experimental data. In this study making use of this ΛΛ interaction the binding energy and the radius matter for the ground state of hypernucleus (_ΛΛ^6)He is calculated via solving the coupled Faddeev equations. Here, for the Λα interaction; three different and common types of interactions, the Isle-type potential, the single Gaussian potential and the Maeda-Schmidt potential are examined. Numerical analyzes for (_ΛΛ^6)He using three ΛΛ interaction models and three models of phenomenological Λα interaction lead to the values of ground state energy between 7.197 and 8.408 MeV, and the value of the radius of matter in the range of 1.731 to 1.954 fm. Numerical results show that the minimum value of ground state binding energy, which is closest to the experimental value, occurs when one uses the HAL QCD ΛΛ potential at lattice time t⁄a=12 and the MS phenomenological type Λα potential. Also, the geometrical properties of (_ΛΛ^6)He system are investigated.https://ijpr.iut.ac.ir/article_3315_fd85a638ed9f7302b2caca4d5635f3f5.pdf