Add to ORKG312-314The phenomenon of proton decay is treated as the transmission of the proton across a potential barrier developed due to combined effects of the Coulomb potential, centrifugal potential and various renormalization processes. In the present paper, a microscopic approach has been used to calculate a Coulomb potential from Woods-Saxon charge density distribution function. Half-lives of proton emitters have been calculated in the framework of WKB method with modified Coulomb potential. Significant improvement in the values of half-lives is obtained as compared to those calculated with the Coulomb potential of a spherical charged core
Concise methods are proposed to study proton radioactivity. The spectroscopic factor is obtained fro...
643-645We have studied the nuclear properties and life-time of few proton emitters in their ground s...
The theory for proton radioactivity from deformed drip-line nuclei is discussed. All experimental da...
The potential barrier impeding the spontaneous emission of protons in the proton radioactive nuclei ...
In this work we present a systematic study of the proton radioactivity half-lives of spherical proto...
A very simple formula is presented that relates the logarithm of the half-life, corrected by the cen...
Proton radioactivity of neutron-deficient nuclei around the dripline has been systematically studied...
The half-lives of proton radioactivity of proton emitters are investigated theoretically. Proton-nuc...
The proton radioactivity lifetimes of spherical proton emitters from the ground and the isomeric sta...
Half-life measurements for both ground-state and isomeric transitions in proton radioactivity are sy...
In the present work we systematically study the half-lives of proton radioactivity for spherical pro...
Using the Coulomb and proximity potential model for deformed nuclei (CPPMDN) the half-lives of proto...
The proton radioactivity half-lives of spherical proton emitters are calculated by the cluster model...
Theoretical α-decay half-lives of some nuclei from ground state to ground state are calculated using...
Theoretical α-decay half-lives of some nuclei from ground state to ground state are calculated using...
Concise methods are proposed to study proton radioactivity. The spectroscopic factor is obtained fro...
643-645We have studied the nuclear properties and life-time of few proton emitters in their ground s...
The theory for proton radioactivity from deformed drip-line nuclei is discussed. All experimental da...
The potential barrier impeding the spontaneous emission of protons in the proton radioactive nuclei ...
In this work we present a systematic study of the proton radioactivity half-lives of spherical proto...
A very simple formula is presented that relates the logarithm of the half-life, corrected by the cen...
Proton radioactivity of neutron-deficient nuclei around the dripline has been systematically studied...
The half-lives of proton radioactivity of proton emitters are investigated theoretically. Proton-nuc...
The proton radioactivity lifetimes of spherical proton emitters from the ground and the isomeric sta...
Half-life measurements for both ground-state and isomeric transitions in proton radioactivity are sy...
In the present work we systematically study the half-lives of proton radioactivity for spherical pro...
Using the Coulomb and proximity potential model for deformed nuclei (CPPMDN) the half-lives of proto...
The proton radioactivity half-lives of spherical proton emitters are calculated by the cluster model...
Theoretical α-decay half-lives of some nuclei from ground state to ground state are calculated using...
Theoretical α-decay half-lives of some nuclei from ground state to ground state are calculated using...
Concise methods are proposed to study proton radioactivity. The spectroscopic factor is obtained fro...
643-645We have studied the nuclear properties and life-time of few proton emitters in their ground s...
The theory for proton radioactivity from deformed drip-line nuclei is discussed. All experimental da...