Evolution of single-particle strength in neutron-rich 71Cu
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D. Napoli | C. Borcea | S. Franchoo | B. Fernández-Domínguez | P. Morfouace | K. Sieja | Z. Vajta | D. Mengoni | F. Recchia | I. Martel | D. Sohler | S. Grévy | A. Gillibert | C. Stodel | R. Borcea | M. Stanoiu | O. Sorlin | F. Azaiez | Z. Dombrádi | J. Scarpaci | I. Matea | I. Stefan | J. Thomas | A. Sánchez‐Benítez | A. Matta | D. Beaumel | F. Hammache | L. Nalpas | M. Niikura | A. Lepailleur | V. Lapoux | L. Lefebvre | M. Assié | N. D. Séréville | G. Marquínez-Durán | O. Kamalou | C. Louchart | J. Elseviers | L. Caceres | S. Boissinot | G. Burgunder | S. Giron | A. Sánchez-Benítez | Z. Dombrádi
[1] A. Görgen,et al. Shell evolution beyond N=40 : Cu-69,Cu-71,Cu-73 , 2015 .
[2] N. Kurz,et al. β-Decay half-lives of 76,77Co, 79,80Ni, and 81Cu: experimental indication of a doubly magic 78Ni. , 2014, Physical review letters.
[3] B. A. Brown,et al. Configuration mixing and relative transition rates between low-spin states in 68 Ni , 2013 .
[4] T. Otsuka,et al. Novel shape evolution in exotic Ni isotopes and configuration-dependent shell structure , 2013, 1309.5851.
[5] J. Clark,et al. Valence nucleon populations in the Ni isotopes , 2013 .
[6] K. Sieja,et al. Three-body forces and persistence of spin-orbit shell gaps in medium-mass nuclei: Toward the doubly magic $^{78}$Ni , 2012 .
[7] E. Cl'ement,et al. Discovery of a new isomeric state in $^{68}$Ni: Evidence for a highly-deformed proton intruder state. , 2012, 1202.6154.
[8] J. Clark,et al. Test of sum rules in nucleon transfer reactions. , 2012, Physical review letters.
[9] T. Duguet,et al. Ab-initio approach to effective single-particle energies in doubly closed shell nuclei , 2011, 1110.2468.
[10] R. Wiringa,et al. Quantum Monte Carlo Calculations of Spectroscopic Overlaps in A {<=} 7 Nuclei , 2011, 1106.3121.
[11] K. Sieja,et al. Island of inversion around Cr-64 , 2010 .
[12] K. Sieja,et al. Shell evolution and nuclear forces , 2010 .
[13] C. Barbieri. Role of long-range correlations in the quenching of spectroscopic factors. , 2009, Physical review letters.
[14] D. Pang,et al. Global optical model potential for A=3 projectiles , 2009 .
[15] M. Porquet,et al. Nuclear magic numbers: New features far from stability , 2008, 0805.2561.
[16] V. Fedosseev,et al. Interplay between single-particle and collective effects in the odd-A Cu isotopes beyond N=40. , 2008, Physical review letters.
[17] Y. Blumenfeld,et al. MUST2: A new generation array for direct reaction studies , 2005 .
[18] E. Pellegrini,et al. The half-life of the doubly-magic r-process nucleus 78Ni , 2005, Physical review letters.
[19] C. Barbieri,et al. Self-consistent Green's function method for nuclei and nuclear matter , 2004, nucl-th/0402034.
[20] P. Hansen,et al. DIRECT REACTIONS WITH EXOTIC NUCLEI , 2003 .
[21] W. Nazarewicz,et al. How magic is the magic 68 Ni nucleus , 2002, nucl-th/0210089.
[22] J. Duprat,et al. (68)(28)Ni(40): Magicity versus superfluidity. , 2002, Physical review letters.
[23] R. Furnstahl,et al. Are occupation numbers observable , 2001, nucl-th/0108069.
[24] M. Kárný,et al. beta decay of Co-66, Co-68, and Co-70 , 2000 .
[25] P. Mantica,et al. Particle-core coupling around Ni: a study of the subshell closure at N=40 , 2000 .
[26] J. Sida,et al. CATS, A LOW PRESSURE MULTIWIRE PROPORTIONNAL CHAMBER FOR SECONDARY BEAM TRACKING AT GANIL , 1999 .
[27] M. Itoh,et al. The ( ν g 9 / 2 2 π p 3 / 2 ) 19 / 2 − Isomer in C 71 u and the Prediction of its E 2 Decay from the Shell Model , 1998 .
[28] K. Kratz,et al. Beta Decay of 68-74 Ni and Level Structure of Neutron-Rich Cu Isotopes , 1998 .
[29] M. Hjorth-Jensen,et al. NEW ISLAND OF MU S ISOMERS IN NEUTRON-RICH NUCLEI AROUND THE Z = 28 AND N = 40 SHELL CLOSURES , 1998 .
[30] S. Czajkowski,et al. Production and identification of heavy Ni isotopes: evidence for the doubly magic nucleus2878Ni , 1995 .
[31] D. W. Devins,et al. The 48Ca(d→, 3He)47K reaction at 80 MeV , 1985 .
[32] P. Dessagne,et al. Magic features of 68Ni , 1982 .
[33] Z. Vrcelj,et al. Global optical model potential for elastic deuteron scattering from 12 to 90 MeV , 1980 .
[34] B. Zeidman,et al. Mass and low-lying energy levels of /sup 69/Cu , 1978 .
[35] R. Tamisier,et al. Ge-70, Ge-72, Ge-74, Ge-76 (d, He-3) Ga-69, Ga-71, Ga-73, Ga-75 reactions at 26 MeV , 1978 .
[36] K. Knöpfle,et al. The quasihole aspect of hole strength distributions in odd potassium and calcium isotopes , 1976 .
[37] J. P. Elliott,et al. Collective motion in the nuclear shell model. I. Classification schemes for states of mixed configurations , 1958, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[38] F. Perey,et al. Compilation of phenomenological optical-model parameters 1954–1975 , 1976 .