Phenomenological potential calculations for cluster decays
Küçük Resim Yok
Tarih
2017
Yazarlar
Dergi Başlığı
Dergi ISSN
Cilt Başlığı
Yayıncı
Erişim Hakkı
info:eu-repo/semantics/openAccess
Özet
The half-lives of cluster decays from various nuclei having experimentally measured values have been calculatedby using the Wentzel{Kramers{Brillouin method together with the Bohr{Sommerfeld quantization condition for threedifferent types of phenomenological nuclear interactions: Woods{Saxon (WS), squared Woods{Saxon (WS-2), and mixedWoods{Saxon (mWS) potentials. By comparing the results with experimental values, rms values have been calculated.The half-lives of14C,15N,16O,17O,18O,20O,22O,23F,22Ne,24Ne,25Ne,26Ne,28Mg,30Mg, and34Si decays fromvarious isotopes whose experimental half-lives are unknown have also been calculated by using the WS, WS-2, and mWSpotentials. The obtained results have been compared with results of the liquid drop model, the Christensen{Wintherpotential form, and the Coulomb and proximity potential model. Even if the logarithmic values of the half-lives havesimilar behaviors, there are differences in size between the values. The present results provide useful information andextra theoretical data for future measurements of the unknown half-lives of possible cluster emissions from various nuclei
The half-lives of cluster decays from various nuclei having experimentally measured values have been calculatedby using the Wentzel{Kramers{Brillouin method together with the Bohr{Sommerfeld quantization condition for threedifferent types of phenomenological nuclear interactions: Woods{Saxon (WS), squared Woods{Saxon (WS-2), and mixedWoods{Saxon (mWS) potentials. By comparing the results with experimental values, rms values have been calculated.The half-lives of14C,15N,16O,17O,18O,20O,22O,23F,22Ne,24Ne,25Ne,26Ne,28Mg,30Mg, and34Si decays fromvarious isotopes whose experimental half-lives are unknown have also been calculated by using the WS, WS-2, and mWSpotentials. The obtained results have been compared with results of the liquid drop model, the Christensen{Wintherpotential form, and the Coulomb and proximity potential model. Even if the logarithmic values of the half-lives havesimilar behaviors, there are differences in size between the values. The present results provide useful information andextra theoretical data for future measurements of the unknown half-lives of possible cluster emissions from various nuclei
The half-lives of cluster decays from various nuclei having experimentally measured values have been calculatedby using the Wentzel{Kramers{Brillouin method together with the Bohr{Sommerfeld quantization condition for threedifferent types of phenomenological nuclear interactions: Woods{Saxon (WS), squared Woods{Saxon (WS-2), and mixedWoods{Saxon (mWS) potentials. By comparing the results with experimental values, rms values have been calculated.The half-lives of14C,15N,16O,17O,18O,20O,22O,23F,22Ne,24Ne,25Ne,26Ne,28Mg,30Mg, and34Si decays fromvarious isotopes whose experimental half-lives are unknown have also been calculated by using the WS, WS-2, and mWSpotentials. The obtained results have been compared with results of the liquid drop model, the Christensen{Wintherpotential form, and the Coulomb and proximity potential model. Even if the logarithmic values of the half-lives havesimilar behaviors, there are differences in size between the values. The present results provide useful information andextra theoretical data for future measurements of the unknown half-lives of possible cluster emissions from various nuclei
Açıklama
Anahtar Kelimeler
Fizik, Uygulamalı
Kaynak
Turkish Journal of Physics
WoS Q Değeri
N/A
Scopus Q Değeri
Q3
Cilt
41
Sayı
3
