José Enrique García Ramos
University of Huelva
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Featured researches published by José Enrique García Ramos.
Physical Review C | 2003
José Miguel Arias Carrasco; C. E. Alonso; A. Vitturi; José Enrique García Ramos; J. Dukelsky; A. Frank
The relation of the recently proposed
Physical Review C | 2003
José Enrique García Ramos; José Miguel Arias Carrasco; J. Barea; A. Frank
E(5)
Physical Review A | 2011
Pedro Pérez Fernández; José Miguel Arias Carrasco; José Enrique García Ramos; Francisco Pérez Bernal
critical point symmetry with the interacting boson model is investigated. The large-
Physical Review C | 2017
José Enrique García Ramos; P. Pérez-Fernández; José Miguel Arias Carrasco
N
Physical Review C | 2018
José Enrique García Ramos; J. Dukelsky; Pedro Pérez Fernández; José Miguel Arias Carrasco
limit of the interacting boson model at the critical point in the transition from U(5) to O(6) is obtained by solving the Richardson equations. It is shown explicitly that this algebraic calculation leads to the same results as the solution of the Bohr differential equation with a
Physical Review C | 2006
Julien Vidal; José Miguel Arias Carrasco; J. Dukelsky; José Enrique García Ramos
{ensuremath{beta}}^{4}
Physical Review C | 2012
I. Mukha; L. V. Grigorenko; Luis Armando Acosta Sánchez; M. A. G. Alvarez; E. Casarejos; A. Chatillon; D. Cortina Gil; J. M. Espino; A. S. Fomichev; José Enrique García Ramos; H. Geissel; Joaquín José Gómez Camacho; J. Hofmann; O. Kiselev; A. A. Korsheninnikov; N. Kurz; Yu. A. Litvinov; Ismael Martel Bravo; C. Nociforo; W. Ott; M. Pfützner; C. Rodríguez Tajes; E. Roeckl; C. Scheidenberger; M. Stanoiu; K. Sümmerer; H. Weick; P. J. Woods
potential.
Archive | 2015
José Enrique García Ramos; José Miguel Arias Carrasco; Emilio Freire
A systematic study of isotope chains in the rare--earth region is presented. For the chains (144-154)Nd, (146-160)Sm, (148-162)Gd, and (150-166)Dy, energy levels, E2 transition rates, and two--neutron separation energies are described by using the most general (up to two--body terms) IBM Hamiltonian. For each isotope chain a general fit is performed in such a way that all parameters but one are kept fixed to describe the whole chain. In this region nuclei evolve from spherical to deformed shapes and a method based on catastrophe theory, in combination with a coherent state analysis to generate the IBM energy surfaces, is used to identify critical phase transition points.
AIP Conference Proceedings | 2013
Juan Antonio Caballero Carretero; C. E. Alonso; María Victoria Andrés Martín; José Enrique García Ramos; Francisco Pérez Bernal
This work has been partially supported by the Spanish MEC, by the European regional development fund (FEDER) under Projects No. FIS2008-04189 and CPAN-Ingenio (No. CSD2007-00042), and by the Junta de Andalucia (Projects No. P07-FQM-02962, No. P07-FQM-03014, and No. P07-FQM-02894). P.P.F. acknowledges the Spanish MEC for an FPU grant. The authors thank Jorge Dukelsky, Francesco Iachello, Pieter van Isacker, Amiram Leviatan, and Armando Relano for valuable comments and suggestions.
AIP Conference Proceedings | 2013
Juan Antonio Caballero Carretero; C. E. Alonso; María Victoria Andrés Martín; José Enrique García Ramos; Francisco Pérez Bernal
This work has been supported by the Spanish Ministerio de Econom ia y Competitividad nand the European regional development fund (FEDER) under Project No. FIS2014-53448-C2-1-P and FIS2014-53448-C2-2-P
