Maximally aligned states in the proton drip line nucleus {sup 106}Sb

Sohler, D; Palacz, M; Dombradi, Zs; Hjorth-Jensen, M; Fahlander, C; Norlin, L -O; Nyberg, J; Baeck, T; Lagergren, K; Rudolph, D; Algora, A; Andreoiu, C; De Angelis, G; Atac, A; Bazzacco, D; Cederkaell, J; Cederwall, B; Fant, B; Farnea, E; Gadea, A; Gorska, M; Grawe, H; Hashimito-Saitoh, N; Johnson, A; Kerek, A; Klamra, W; Kownacki, J

doi:10.1016/j.nuclphysa.2005.02.153

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ETDEWEB / / Maximally aligned states in the proton drip line nucleus {sup 106}Sb

Maximally aligned states in the proton drip line nucleus {sup 106}Sb

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Abstract

High-spin states in {sup 106}Sb have been investigated in the {sup 54}Fe({sup 58}Ni,-bar 1{alpha}1p1n) reaction by in-beam {gamma}-spectroscopic methods using the Euroball detector array equipped with charged particle and neutron detectors. On the basis of measured {gamma}{gamma}-coincidence relations, angular distributions, and linear polarization ratios a significantly extended level scheme has been constructed up to spin and parity I{pi}=(19-) and Ex{approx}6.5 MeV. The experimental results are interpreted within the framework of the gdsh shell model using a realistic effective nucleon-nucleon interaction. Candidates for states with fully aligned angular momenta in the {pi}(d5/2,g7/2)1{nu}(d5/2,g7/2)5 valence space are identified at 4338 and 5203 keV, as well as in the {pi}(d5/2,g7/2)1 {nu}(d5/2,g7/2)4h11/21 space at 6087, 6573 and 6783 keV.

Authors:

Sohler, D; ^[1] Palacz, M; ^[2] Dombradi, Zs; ^[1] Hjorth-Jensen, M; ^[3] Fahlander, C; ^[4] Norlin, L -O; ^[5] Nyberg, J; ^[6] Baeck, T; ^[5] Lagergren, K; ^[5] Department of Physics, Florida State University, Tallahassee, FL (United States)]; Rudolph, D; ^[4] Algora, A; ^[1] Andreoiu, C; ^[4] De Angelis, G; ^[7] Atac, A; ^[8] Bazzacco, D; ^[9] Cederkaell, J; ^[5] Cederwall, B; ^[5] Fant, B; ^[10] Farnea, E; ^[7] University of Valencia, Valencia (Spain)]; Gadea, A; ^[7] University of Valencia, Valencia (Spain)]; Gorska, M; ^[11] Grawe, H; ^[11] Hashimito-Saitoh, N; ^[11] Johnson, A; ^[5] Kerek, A; ^[5] Klamra, W; ^[5] Kownacki, J ^[12]

Institute for Nuclear Research, Debrecen (Hungary)
Heavy Ion Laboratory, University of Warsaw, Warsaw (Poland)
Department of Physics and Center of Mathematics for Applications, University of Oslo (Norway)
Department of Physics, Lund University, Lund (Sweden)
Royal Institute of Technology, Stockholm (Sweden)
Svedberg Laboratory, Uppsala (Sweden)
Laboratori Nazionali di Legnaro, Padova (Italy)
Department of Radiation Sciences, Uppsala University, Uppsala (Sweden)
Dipartimento di Fisica and INFN Sezione di Padova, Padova (Italy)
Department of Physics, Helsinki University, Helsinki (Finland)
GSI, Darmstadt (Germany)
Heavy Ion Lab., Univ. of Warsaw, Warsaw (Poland); and others

Publication Date:

May 16, 2005

DOI:

https://doi.org/10.1016/j.nuclphysa.2005.02.153

Product Type:

Journal Article

Resource Relation:

Journal Name: Nuclear Physics. A; Journal Volume: 753; Journal Issue: 3-4; Other Information: DOI: 10.1016/j.nuclphysa.2005.02.153; PII: S0375-9474(05)00338-6; Copyright (c) 2005 Elsevier Science B.V., Amsterdam, The Netherlands, All rights reserved; Country of input: International Atomic Energy Agency (IAEA)

Subject:

73 NUCLEAR PHYSICS AND RADIATION PHYSICS; ANGULAR DISTRIBUTION; ANTIMONY 106; CHARGED PARTICLES; GAMMA RADIATION; HIGH SPIN STATES; IRON 54; IRON 54 TARGET; KEV RANGE; MEV RANGE; NEUTRON DETECTORS; NEUTRONS; NICKEL 58; NICKEL 58 REACTIONS; NUCLEON-NUCLEON INTERACTIONS; PARITY; POLARIZATION; PROTONS; SHELL MODELS; SPIN; VALENCE

OSTI ID:

20732485

Country of Origin:

Netherlands

Language:

English

Other Identifying Numbers:

Journal ID: ISSN 0375-9474; NUPABL; TRN: NL05U5080042556

Submitting Site:

NLN

Size:

page(s) 251-262

Announcement Date:

Jun 19, 2006

Citation Formats

Sohler, D, Palacz, M, Dombradi, Zs, Hjorth-Jensen, M, Fahlander, C, Norlin, L -O, Nyberg, J, Baeck, T, Lagergren, K, Department of Physics, Florida State University, Tallahassee, FL (United States)], Rudolph, D, Algora, A, Andreoiu, C, De Angelis, G, Atac, A, Bazzacco, D, Cederkaell, J, Cederwall, B, Fant, B, Farnea, E, University of Valencia, Valencia (Spain)], Gadea, A, University of Valencia, Valencia (Spain)], Gorska, M, Grawe, H, Hashimito-Saitoh, N, Johnson, A, Kerek, A, Klamra, W, and Kownacki, J. Maximally aligned states in the proton drip line nucleus {sup 106}Sb. Netherlands: N. p., 2005. Web. doi:10.1016/j.nuclphysa.2005.02.153.

Sohler, D, Palacz, M, Dombradi, Zs, Hjorth-Jensen, M, Fahlander, C, Norlin, L -O, Nyberg, J, Baeck, T, Lagergren, K, Department of Physics, Florida State University, Tallahassee, FL (United States)], Rudolph, D, Algora, A, Andreoiu, C, De Angelis, G, Atac, A, Bazzacco, D, Cederkaell, J, Cederwall, B, Fant, B, Farnea, E, University of Valencia, Valencia (Spain)], Gadea, A, University of Valencia, Valencia (Spain)], Gorska, M, Grawe, H, Hashimito-Saitoh, N, Johnson, A, Kerek, A, Klamra, W, & Kownacki, J. Maximally aligned states in the proton drip line nucleus {sup 106}Sb. Netherlands. https://doi.org/10.1016/j.nuclphysa.2005.02.153

Sohler, D, Palacz, M, Dombradi, Zs, Hjorth-Jensen, M, Fahlander, C, Norlin, L -O, Nyberg, J, Baeck, T, Lagergren, K, Department of Physics, Florida State University, Tallahassee, FL (United States)], Rudolph, D, Algora, A, Andreoiu, C, De Angelis, G, Atac, A, Bazzacco, D, Cederkaell, J, Cederwall, B, Fant, B, Farnea, E, University of Valencia, Valencia (Spain)], Gadea, A, University of Valencia, Valencia (Spain)], Gorska, M, Grawe, H, Hashimito-Saitoh, N, Johnson, A, Kerek, A, Klamra, W, and Kownacki, J. 2005. "Maximally aligned states in the proton drip line nucleus {sup 106}Sb." Netherlands. https://doi.org/10.1016/j.nuclphysa.2005.02.153.

@misc{etde_20732485,
title = {Maximally aligned states in the proton drip line nucleus {sup 106}Sb}
author = {Sohler, D, Palacz, M, Dombradi, Zs, Hjorth-Jensen, M, Fahlander, C, Norlin, L -O, Nyberg, J, Baeck, T, Lagergren, K, Department of Physics, Florida State University, Tallahassee, FL (United States)], Rudolph, D, Algora, A, Andreoiu, C, De Angelis, G, Atac, A, Bazzacco, D, Cederkaell, J, Cederwall, B, Fant, B, Farnea, E, University of Valencia, Valencia (Spain)], Gadea, A, University of Valencia, Valencia (Spain)], Gorska, M, Grawe, H, Hashimito-Saitoh, N, Johnson, A, Kerek, A, Klamra, W, and Kownacki, J}
abstractNote = {High-spin states in {sup 106}Sb have been investigated in the {sup 54}Fe({sup 58}Ni,-bar 1{alpha}1p1n) reaction by in-beam {gamma}-spectroscopic methods using the Euroball detector array equipped with charged particle and neutron detectors. On the basis of measured {gamma}{gamma}-coincidence relations, angular distributions, and linear polarization ratios a significantly extended level scheme has been constructed up to spin and parity I{pi}=(19-) and Ex{approx}6.5 MeV. The experimental results are interpreted within the framework of the gdsh shell model using a realistic effective nucleon-nucleon interaction. Candidates for states with fully aligned angular momenta in the {pi}(d5/2,g7/2)1{nu}(d5/2,g7/2)5 valence space are identified at 4338 and 5203 keV, as well as in the {pi}(d5/2,g7/2)1 {nu}(d5/2,g7/2)4h11/21 space at 6087, 6573 and 6783 keV.}
doi = {10.1016/j.nuclphysa.2005.02.153}
journal = []
issue = {3-4}
volume = {753}
place = {Netherlands}
year = {2005}
month = {May}
}

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