N=50 Core Excited States Studied in the 96Pd Nucleus

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N=50 Core Excited States Studied in the 96Pd Nucleus. / Palacz, M.; Nyberg, J.; Grawe, H.; Sieja, K.; de Angelis, G.; Bednarczyk, P.; Blazhev, A.; Curien, D.; Dombradi, Z.; Dorvaux, O.; Ekman, Jörgen; Galkowski, J.; Gorska, M.; Iwanicki, J.; Jaworski, G.; Kownacki, J.; Ljungvall, J.; Moszynski, M.; Nowacki, F.; Rudolph, Dirk; Sohler, D.; Wolski, D.; Zieblinski, M.

I: Physical Review C (Nuclear Physics), Vol. 86, Nr. 1, 014318, 2012.

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Harvard

Palacz, M, Nyberg, J, Grawe, H, Sieja, K, de Angelis, G, Bednarczyk, P, Blazhev, A, Curien, D, Dombradi, Z, Dorvaux, O, Ekman, J, Galkowski, J, Gorska, M, Iwanicki, J, Jaworski, G, Kownacki, J, Ljungvall, J, Moszynski, M, Nowacki, F, Rudolph, D, Sohler, D, Wolski, D & Zieblinski, M 2012, 'N=50 Core Excited States Studied in the 96Pd Nucleus', Physical Review C (Nuclear Physics), vol. 86, nr. 1, 014318. https://doi.org/10.1103/PhysRevC.86.014318

APA

Palacz, M., Nyberg, J., Grawe, H., Sieja, K., de Angelis, G., Bednarczyk, P., ... Zieblinski, M. (2012). N=50 Core Excited States Studied in the 96Pd Nucleus. Physical Review C (Nuclear Physics), 86(1), [014318]. https://doi.org/10.1103/PhysRevC.86.014318

CBE

Palacz M, Nyberg J, Grawe H, Sieja K, de Angelis G, Bednarczyk P, Blazhev A, Curien D, Dombradi Z, Dorvaux O, Ekman J, Galkowski J, Gorska M, Iwanicki J, Jaworski G, Kownacki J, Ljungvall J, Moszynski M, Nowacki F, Rudolph D, Sohler D, Wolski D, Zieblinski M. 2012. N=50 Core Excited States Studied in the 96Pd Nucleus. Physical Review C (Nuclear Physics). 86(1). https://doi.org/10.1103/PhysRevC.86.014318

MLA

Vancouver

Palacz M, Nyberg J, Grawe H, Sieja K, de Angelis G, Bednarczyk P et al. N=50 Core Excited States Studied in the 96Pd Nucleus. Physical Review C (Nuclear Physics). 2012;86(1). 014318. https://doi.org/10.1103/PhysRevC.86.014318

Author

Palacz, M. ; Nyberg, J. ; Grawe, H. ; Sieja, K. ; de Angelis, G. ; Bednarczyk, P. ; Blazhev, A. ; Curien, D. ; Dombradi, Z. ; Dorvaux, O. ; Ekman, Jörgen ; Galkowski, J. ; Gorska, M. ; Iwanicki, J. ; Jaworski, G. ; Kownacki, J. ; Ljungvall, J. ; Moszynski, M. ; Nowacki, F. ; Rudolph, Dirk ; Sohler, D. ; Wolski, D. ; Zieblinski, M. / N=50 Core Excited States Studied in the 96Pd Nucleus. I: Physical Review C (Nuclear Physics). 2012 ; Vol. 86, Nr. 1.

RIS

TY - JOUR

T1 - N=50 Core Excited States Studied in the 96Pd Nucleus

AU - Palacz, M.

AU - Nyberg, J.

AU - Grawe, H.

AU - Sieja, K.

AU - de Angelis, G.

AU - Bednarczyk, P.

AU - Blazhev, A.

AU - Curien, D.

AU - Dombradi, Z.

AU - Dorvaux, O.

AU - Ekman, Jörgen

AU - Galkowski, J.

AU - Gorska, M.

AU - Iwanicki, J.

AU - Jaworski, G.

AU - Kownacki, J.

AU - Ljungvall, J.

AU - Moszynski, M.

AU - Nowacki, F.

AU - Rudolph, Dirk

AU - Sohler, D.

AU - Wolski, D.

AU - Zieblinski, M.

PY - 2012

Y1 - 2012

N2 - The four-proton hole Pd-96 neighbor of the doubly-magic Sn-100 nucleus was studied in-beam, using a fusion-evaporation reaction of a Ni-58 beam on a Sc-45 target. States of Pd-96 were established up to an excitation energy of 9707 keV. A core-excited odd-parity isomer with T-1/2 = 37.7(1.1) ns was identified. Shell model calculations were performed in four different model spaces. Even-parity states of Pd-96 are very well reproduced in large-scale shell model (LSSM) calculations in which excitations are allowed of up to five g(9/2) protons and neutrons across the N = Z = 50 gap, to the g(7/2), d(5/2), d(3/2), and s(1/2) orbitals. The odd-parity isomer can be only qualitatively interpreted though, employing calculation in the full fpg shell model space, with just one particle-hole core excitation.

AB - The four-proton hole Pd-96 neighbor of the doubly-magic Sn-100 nucleus was studied in-beam, using a fusion-evaporation reaction of a Ni-58 beam on a Sc-45 target. States of Pd-96 were established up to an excitation energy of 9707 keV. A core-excited odd-parity isomer with T-1/2 = 37.7(1.1) ns was identified. Shell model calculations were performed in four different model spaces. Even-parity states of Pd-96 are very well reproduced in large-scale shell model (LSSM) calculations in which excitations are allowed of up to five g(9/2) protons and neutrons across the N = Z = 50 gap, to the g(7/2), d(5/2), d(3/2), and s(1/2) orbitals. The odd-parity isomer can be only qualitatively interpreted though, employing calculation in the full fpg shell model space, with just one particle-hole core excitation.

U2 - 10.1103/PhysRevC.86.014318

DO - 10.1103/PhysRevC.86.014318

M3 - Article

VL - 86

JO - Physical Review C: covering nuclear physics

JF - Physical Review C: covering nuclear physics

SN - 2469-9985

IS - 1

M1 - 014318

ER -