1. Papers published in ISI journals (review papers are underlined) (original) (raw)

1.1. D.S. Delion, K.A. Gridnev, E.F. Hefter, V.M. Semionov, The non-linear Schrodinger equation and anomalous backward scattering, Journal of Physics G4 (1978) 125-132 (ISI=1.29/4=0.32) 1.2. D.S. Delion, K.A. Gridnev, E.F. Hefter, V.M. Semionov, Elastic scattering of heavy ions and a modified liquid drop model, Zeitschrift fur Physik A297 (1980) 115-121 (ISI=1.43/4=0.36) 1.3. A.A. Raduta, I.I. Ursu, D.S. Delion, Simultaneous GCSM description of the M1 state and the major collective bands, Nuclear Physics A475 (1987) 439-467 (ISI=2.49/3=0.83) 1.4. A.A. Raduta, D.S. Delion, Description of magnetic properties of the proton -neutron asymmetric states within the Generalized Coherent State Model, Nuclear Physics A491 (1989) 24-44 (ISI=2.49/2=1.25) 1.5. A.A. Raduta, D.S. Delion, The description of the collective M1 properties of the even-odd nuclei, Nuclear Physics A513 (1990) 11-28 (ISI=1.82/2=0.91) 1.6. A.A. Raduta, D.S. Delion, I.I. Ursu, N. Lo Iudice, Semiclassical description of alpha clustering in heavy nuclei, Physical Review C44 (1991) 1929-1943 (ISI=1.88/4=0.47) 1.7. A. Insolia, P. Curuchet, R.J. Liotta, D.S. Delion, Microscopic description of alpha decay of deformed nuclei, Physical Review C44 (1991) 545-547 (ISI=1.88/4=0.47) 1.8. D. Mihalache, D. Mazilu, D.S. Delion, Propagation and stability of nonlinear surface waves, Physical Review A46 (1992) 4449-4452 (ISI=2.12=3/0.71) 1.9. D.S. Delion, A. Insolia, R.J. Liotta, Alpha widths in deformed nuclei: Microscopic approach, Physical Review C46 (1992) 1346-1354 (ISI=1.88/3=0.63) 1.10. D.S. Delion, A. Insolia, R.J. Liotta, Anisotropy in alpha decay of odd-mass deformed nuclei, Physical Review C46 (1992) 884-888 (ISI=1.88/3=0.63) 1.11. D.S. Delion, A. Insolia, R.J. Liotta, Proton-neutron correlations and microscopic description of alpha decay, Nuclear Physics A549 (1992) 407-419 (ISI=1.82/3=0.61) 1.12. N. Lo Iudice, A.A. Raduta, D.S. Delion, Scissors mode and nuclear deformation within the Generalised Coherent State Model, Physics Letters B300 (1993) 195-198 (ISI=3.06/3=1.02) 1.13. A.A. Raduta, D.S. Delion, N. Lo Iudice, A projected single particle basis for deformed nuclei, Nuclear Physics A551 (1993) 93-108 (ISI=1.82/3=0.61) 1.14. D.S. Delion, A. Insolia, R.J. Liotta, New decay modes: is a microscopic approach feasible? Journal of Physics G19 (1993) L189-L192 (ISI=1.14/3=0.38) 1.15. A.A. Raduta, D.S. Delion, A. Faessler, Influence of nuclear deformation on the 2νββ decay, Physics Letters B312 (1993) 13-17 (ISI=3.06/3=1.02) 1.16. A.A. Raduta, A. Faessler, D.S. Delion, Unified description of the 2νββ in spherical and deformed nuclei, Deformation properties of the scissors mode in the generalised Coherent State Model Physical Review C50 (1994) 127-137 (ISI=1.84/3=0.61) 1.20. A.A. Raduta, V. Baran, D.S. Delion, Semiclassical treatment of quadrupole boson hamiltonians: new results for small and for large amplitude regimes, Nuclear Physics A588 (1995) 431-462 (ISI=1.82/3=0.61) 1.21. D.S. Delion, A. Florescu, M. Huise, J. Wauters, P. Van Duppen, A. Insolia, R.J. Liotta, Microscopic description of alpha decay to intruder 0 + 2 states in Pb, Po, Hg and Pt isotopes, Physical Review Letters 74 (1995) 3939-3942 (ISI=6.63/7=0.95) 1.22. A.A. Raduta, D.S. Delion, A. Faessler, Description of the 2νββ transition rate within the Moszkowski model, Physical Review C51 (1995) 3008-3016 (ISI=1.84/3=0.61) 1.23. D.S. Delion, M. Baldo, U. Lombardo, Finite size effects in the gap equation for Paris interaction Nuclear Physics A593 (1995) 151-161 (ISI=1.83/3=0.61) 1.24. D.S. Delion, A. Insolia, R.J. Liotta, New single particle basis for microscopic description of decay processes, Physical Review C54 (1996) 292-301 (ISI=1.99/3=0.66) 1.25. D.S. Delion, A. Florescu, M. Huise, J. Wauters, P. Van Duppen, A. Insolia, R.J. Liotta, Alpha decay as a probe for phase transitions in nuclei, Physical Review C54 (1996) 1169-1176 (ISI=1.99/7=0.28) 1.26. A.A. Raduta, V. Baran, D.S. Delion, Regular and irregular features in classical motion described by a quadrupole boson Hamiltonian, Physical Review E54 (1996) 3264-3273 (ISI=2.15/3=0.72) 1.27. A.A. Raduta, D.S. Delion, A. Faessler, The nuclear deformation versus spin-flip like excitations and the supression of the 2νββ decay amplitude, The description of the (e,e') formfactor and the BM1 probability for the magnetic state 1+ within the Generalized Coherent State Model, Revue Roumaine de Physique 31 (1986) 799-811 3.7. D. Mihalache, D. Mazilu, D.S. Delion, Single soliton emission from a nonlinear asymmetric planar waveguide, Revue Roumaine de Physique 32 (1987) 681-683 3.8. A.A. Raduta, D.S. Delion, Collective M1 and M3 properties of deformed nuclei within the Generalized Coherent State Model, Revue Roumaine de Physique 33 (1988) 1301-1308 3.9. D.S. Delion, Quark models for nucleon-nucleon scattering (in romanian), Studii cerc. fizica 41 (1989) 49-80 3.10. D.S. Delion, A.A. Raduta,