E. Castro scite author profile

Tokamak equilibrium has been analyzed with the magnetohydrodynamics nonlinear momentum equation in the low vorticity case. A large simplification in the analysis is obtained in this case compared with previous general treatments for rotating plasmas in tokamaks. Now pressure is not conserved around magnetic surfaces, however, other generalized functions have been found, which are conserved on each magnetic surface. A generalized Grad–Shafranov-type equation has been also derived for this case. How to determine the gradient of these new conserved functions on each magnetic surface from their value at one point of the corresponding surface is also shown.

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A study of shell model neutron states in 207,209Pb using the generalized Woods–Saxon plus spin-orbit potential

Liendo

Castro

Gómez

et al. 2016

Int. J. Mod. Phys. E

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The experimental binding energies of single-particle and single-hole neutron states belonging to neutron shells that extend from N = 126 to 184 and 82 to 126 respectively, have been reproduced by solving the Schrödinger equation with a potential that has two components: the generalized Woods-Saxon (GWS) potential and the spin-orbit (SO) coupling term. The GWS potential contains the traditional WS potential plus a term (SU) whose intensity reaches a maximum in the nuclear surface.Our results indicate the existence of a explicit relationship between the strength of the SU potential and the orbital angular momentum quantum number of the state. This dependence has been used to make reasonable predictions for the excitation energy centroids of states located inside and outside the neutron shells investigated. Comparisons are made with results reported in previous investigations.

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E. Castro

Analytical approximations to the eigenvalues of the Morse potential with centrifugal terms

Eigenvalues of the Schrödinger equation with Coulomb potentials plus linear and harmonic radial terms

Conserved functions and extended Grad–Shafranov equation for low vorticity viscous plasmas with nonlinear flows

A study of shell model neutron states in 207,209Pb using the generalized Woods–Saxon plus spin-orbit potential

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