2003
DOI: 10.1016/s0370-2693(03)00600-2
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On the Coulomb interaction between spherical and deformed nuclei

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Cited by 50 publications
(40 citation statements)
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“…The choice of this interaction in the current study, in addition to the SLy4 force, is due to its success in describing the different nuclear structure properties, the α-decay half-lives, and different nuclear reactions in various studies [42][43][44][45][46]. Like the nuclear potential, the Coulomb potential will be calculated microscopically within the folding model [47]. The centrifugal contribution is usually used in its Langer modified form, V (r) = ( + 1/2) 2h2 /2μr 2 [21], in terms of the orbital angular momentum carried by the α particle.…”
Section: Theorectical Backgroundmentioning
confidence: 99%
See 1 more Smart Citation
“…The choice of this interaction in the current study, in addition to the SLy4 force, is due to its success in describing the different nuclear structure properties, the α-decay half-lives, and different nuclear reactions in various studies [42][43][44][45][46]. Like the nuclear potential, the Coulomb potential will be calculated microscopically within the folding model [47]. The centrifugal contribution is usually used in its Langer modified form, V (r) = ( + 1/2) 2h2 /2μr 2 [21], in terms of the orbital angular momentum carried by the α particle.…”
Section: Theorectical Backgroundmentioning
confidence: 99%
“…ρ 0 is determined from the normalization condition ρ(r)d r = A d that ensures the volume conservation of the matter distribution. For the folding Coulomb interaction potential, the charge distribution is normalized to the total charge Ze [47].…”
Section: Theorectical Backgroundmentioning
confidence: 99%
“…[11] which is based on multipole expansion of two deformed density distributions. This method of calculating the Coulomb potential is more accurate than other methods based on expanding the potential in terms of deformation parameters [31,32]. Figure 6 shows the calculations of the 238 U+ 238 U fusion cross section for the three orientation angles (θ T , θ P ) = (0 • , 0 • ), (90 • , 90 • ), and (0 • , 90 • ) of the symmetry axes of the two interacting nuclei.…”
Section: Numerical Resultsmentioning
confidence: 99%
“…Like the nuclear potential, the Coulomb potential will be calculated microscopically within the folding model [66]. V l (r) is the centrifugal contribution to the barrier, V l (r) = l(l + 1)h 2 /2µr 2 , which acts to reduce the tunneling probability if the angular momentum carried by the α particle, l, is nonzero.…”
Section: α Decay and Effective Interaction Potentialmentioning
confidence: 99%
“…ρ 0 can be determined from the normalization condition ρ( r)d r = mass number, which ensures the volume conservation. For the folding Coulomb interaction potential, the charge distributions are normalized to the total charge Ze [66].…”
Section: α Decay and Effective Interaction Potentialmentioning
confidence: 99%