Shell-model states with seniority<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow><mml:mi>ν</mml:mi><mml:mo>=</mml:mo><mml:mn>3</mml:mn></mml:mrow></mml:math>, 5, and 7 in odd-<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mi>A</mml:mi></mml:math>neutron-rich Sn isotopes

Iskra, Ł. W.; Broda, R.; Janssens, R. V. F.; Chiara, C. J.; Carpenter, M. P.; Fornal, B.; Hoteling, N.; Kondev, F. G.; Królas, W.; Lauritsen, T.; Pawłat, T.; Seweryniak, D.; Stefanescu, I.; Walters, W. B.; Wrzesiński, J.

doi:10.1103/physrevc.93.014303

Cited by 14 publications

(6 citation statements)

References 24 publications

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“…and νh −3 11/2 configurations, respectively [18,20,21], an additional hole in the νh 11/2 orbital coupled to the counterparts, 7 − and 10 + isomers in even-A Sn, respectively. The experimental data from these nuclei, due to proton shell closure, probe the neutron-neutron (νν) interaction.…”

Section: /2mentioning

confidence: 99%

“…17. [20,21], (f) 13 + → 11 + in the even-A 126−130 Sb (see text), and (g) 27/2 − → 23/2 − in odd-A 119-129 Sn isotopes [20,21,49]. The shell-model calculations using the full interaction SM2 (red solid line), SM2 restricted to only one broken neutron pair (green dash-dotted line) and SM2 with e π = 0 (purple dotted line) are also shown.…”

Section: B B(e2) Transition Probabilitiesmentioning

confidence: 99%

“…Case I: (a) 10 + → 8 + in even-A[118][119][120][121][122][123][124][125][126][127][128][129][130] Sn[16,21,48], (b) 23/2 + → 19/2 + in odd-A 123-131 Sb (see text); Case II: (c) 7 − → 5 − in even-A 118−126 Sn [21], (d) 19/2 − → 15/2 − in odd-A 123-131 Sb (see text); Case III: (e) 23/2 + → 19/2 + in odd-A 119-129 Sn [20,21], (f) 13 + → 11 + states in the even-A 126−130 Sb (see text); and Case IV: (g) 27/2 − → 23/2 − in odd-A 119-129 Sn isotopes [20,21,49].The full calculations are shown by red solid lines, those restricted to one broken pair are shown by dash-dotted ν )/P(υ ν +2) P(I ν )/P(I ν -2)(h) P(I ν )/P(I ν -1) P(I ν )/P(I ν -2) ν )/P(υ ν +2) P(υ ν )/P(υ ν +2) The experimental (Expt.) B(E 2) values (black squares) for the (a) 10 + → 8 + in even-A 118-130 Sn [16,21,48], (b) 23/2 + → 19/2 + in odd-A 123-131 Sb (see text), (c) 7 − → 5 − in even-A 118−126 Sn [21], (d) 19/2 − → 15/2 − transitions in odd-A 123-131 Sb (see text), (e) 23/2 + → 19/2 + in odd-A 119-129 Sn…”

mentioning

confidence: 99%

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Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich Sb51122–131 isotopes

Biswas¹,

Lemasson²,

Rejmund³

et al. 2019

Phys. Rev. C

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Background: Levels fulfilling the seniority scheme and relevant isomers are commonly observed features in semimagic nuclei; for example, in Sn isotopes (Z = 50). Seniority isomers in Sn, with dominantly pure neutron configurations, directly probe the underlying neutron-neutron (νν) interaction. Furthermore, an addition of a valence proton particle or hole, through neutron-proton (νπ) interaction, affects the neutron seniority as well as the angular momentum.

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Section: /2mentioning

confidence: 99%

Section: B B(e2) Transition Probabilitiesmentioning

confidence: 99%

mentioning

confidence: 99%

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Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich Sb51122–131 isotopes

Biswas¹,

Lemasson²,

Rejmund³

et al. 2019

Phys. Rev. C

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show abstract

“…Ref. [32] for details) is used at HPGe-detector arrays for the investigation of isomeric states with half-lives in the tens of ns to μs range. In this kind of investigations, the γ-ray energy spectra obtained with different time conditions are analyzed, considering as time reference the "trigger" of the events.…”

Section: Impact On the Study Of Isomeric Statesmentioning

confidence: 99%

Development of a liquid scintillator based active fission target for FIPPS

et al. 2020

Self Cite

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An active fission target has been developed for the FIPPS instrument at ILL, enabling for the first time an efficient suppression of $$\upbeta $$ β -delayed $$\upgamma $$ γ rays in high-resolution and high-efficiency $$\upgamma $$ γ -ray spectroscopy of fission fragments at a neutron beam. The target is based on a liquid scintillator in which the actinide is dissolved, resulting in a 4$$\pi $$ π fragment detection. Measurements have been performed with $$^{233, 235}$$ 233 , 235 U, with a fission tagging efficiency of 97.8(25)%. The high efficiency, together with the good time resolution of the scintillator target, provide high-selectivity data for $$\upgamma $$ γ -ray spectroscopy studies of fission fragments.

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“…Even-A 118−130 Sn isotopes possess 7 − and 10 + isomers, with dominant neutron νh −1 11/2 d −1 3/2 and νh −2 11/2 configurations, respectively [16][17][18][19]. Similarly, odd-A 119−129 Sn isotopes display 23/2 + and 27/2 − isomers with dominant νh −2 11/2 d −1 3/2 and νh −3 11/2 configurations, respectively [18,20,21], an additional hole in the νh 11/2 orbital coupled to the counterparts, 7 − and 10 + isomers in even-A Sn, respectively. The experimental data from these nuclei, due to proton shell closure, probe the neutronneutron (νν) interaction.…”

Section: Introductionmentioning

confidence: 99%

Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich $^{122-131}$Sb$_{51}$ isotopes

Biswas,

Lemasson,

Rejmund

et al. 2019

Preprint

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Background: Levels fulfilling seniority scheme and relevant isomers are commonly observed features in semi-magic nuclei, for example in Sn isotopes (Z = 50). Seniority isomers in Sn, with dominantly pure neutron configurations, directly probe the underlying neutron-neutron (νν) interaction. Further, an addition of a valence proton particle or hole, through neutron-proton (νπ) interaction, affects the neutron seniority as well as the angular momentum.Purpose: Benchmark the reproducibility of the experimental observables, like the excitation energies (EX ) and the reduced electric quadrupole transition probabilities (B(E2)), with the results obtained from shell model interactions for neutron-rich Sn and Sb isotopes with N < 82. Study the sensitivity of the aforementioned experimental observables to the model interaction components. Further, explore from a microscopic point of view the structural similarity between the isomers in Sn and Sb, and thus the importance of the valence proton.Methods: The neutron-rich 122−131 Sb isotopes were produced as fission fragments in the reaction 9 Be( 238 U, f) with 6.2 MeV/u beam energy. An unique setup, consisting of AGATA, VAMOS++ and EXOGAM detectors, was used which enabled the prompt-delayed gamma-ray (γ) spectroscopy of fission fragments in the time range of 100 ns -200 µs.Results: New isomers, prompt and delayed transitions were established in the even-A 122−130 Sb isotopes. In the odd-A 123−131 Sb isotopes, new prompt and delayed γ-ray transitions were identified, in addition to the confirmation of the previously known isomers. The half-lives of the isomeric states

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Shell-model states with seniorityν=3, 5, and 7 in odd-Aneutron-rich Sn isotopes

Cited by 14 publications

References 24 publications

Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich Sb51122–131 isotopes

Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich Sb51122–131 isotopes

Development of a liquid scintillator based active fission target for FIPPS

Effects of one valence proton on seniority and angular momentum of neutrons in neutron-rich $^{122-131}$Sb$_{51}$ isotopes

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