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    Öğe
    First Forbidden Beta Transitions of ½+- ½- States for ?J=0 In Spherical Odd Mass Nuclei
    (Alanya Alaaddin Keykubat Üniversitesi, 2019) Selam, Cevad
    In this study, the first forbidden beta transitions of   states for ?J=0 have been investigated in spherical odd mass nuclei. The pn-QRPA model is used with a schematic separable interaction to calculate first forbidden transitions by considering the Woods–Saxon potential basis in the Chepurnov parameterization. The transition probabilities in this model have been calculated within the ?-approximation. ? is a dimensionless parameter representing the magnitude of the Coulomb energy and is approximated by 1.2ZA-1/3 [1]. Logft values calculated of first forbidden transitions are found to be in better agreement with measured data.
  • [ X ]
    Öğe
    First forbidden beta transitions of ½+? ½- states for ?J=0 in spherical odd mass nuclei
    (Alanya Alaaddin Keykubat Üniversitesi, 2019) Selam, Cevad
    In this study, the first forbidden betatransitions of   states for ?J=0 have been investigated in spherical odd mass nuclei. The pn-QRPA model is used with a schematic separable interaction tocalculate first forbidden transitions by considering the Woods–Saxon potentialbasis in the Chepurnov parameterization. The transition probabilities in thismodel have been calculated within the ?-approximation.? is a dimensionless parameterrepresenting the magnitude of the Coulomb energy and is approximated by 1.2ZA?1/3[1]. Logft values calculated of firstforbidden transitions are found to be in better agreement with measured data.
  • [ X ]
    Öğe
    First Forbidden Beta Transitions of ½+? ½- States for ?J=0 In Spherical Odd Mass Nuclei
    (Alanya Alaaddin Keykubat Üniversitesi, 2019) Selam, Cevad
    In this study, the first forbidden beta transitions of   states for ?J=0 have been investigated in spherical odd mass nuclei. The pn-QRPA model is used with a schematic separable interaction to calculate first forbidden transitions by considering the Woods–Saxon potential basis in the Chepurnov parameterization. The transition probabilities in this model have been calculated within the ?-approximation. ? is a dimensionless parameter representing the magnitude of the Coulomb energy and is approximated by 1.2ZA?1/3 [1]. Logft values calculated of first forbidden transitions are found to be in better agreement with measured data.