References quoted in the XUNDL dataset: 130LA 121SB(12C,3NG):XUNDL-4

5 references found.

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1989GO06

J.Phys.(London) G15, 671 (1989)

M.J.Godfrey, Y.He, I.Jenkins, A.Kirwan, P.J.Nolan, D.J.Thornley, S.M.Mullins, R.Wadsworth, R.A.Wyss

Collective Oblate Structure in the Odd-Odd Isotopes ^128,130La

NUCLEAR REACTIONS ⁹⁵Mo(³⁶S, 2np), E=135, 145 MeV; measured γγ-coin. ¹¹⁵In(¹⁶O, 3n), E=68 MeV; measured γ(θ). ⁵¹V(⁸²Se, 3n), E=290 MeV; measured γγ-coin, γ-spectra. ^128,130La deduced levels, J, π, γ-branching, B(λ) ratios.

doi: 10.1088/0954-3899/15/5/019

2014IO01

Phys.Rev. C 90, 014323 (2014), Erratum Phys.Rev. C 90, 029903 (2014)

M.Ionescu-Bujor, A.Iordachescu, N.Marginean, R.Lica, D.Bucurescu, F.Brandolini, D.Deleanu, D.Filipescu, I.Gheorghe, D.Ghita, T.Glodariu, R.Marginean, N.H.Medina, C.Mihai, A.Negret, L.Stroe, C.A.Ur

Structure of ¹³⁰La at low and medium spins

NUCLEAR REACTIONS ¹²¹Sb(¹²C, 3n), E=50 MeV; ¹¹⁶Sn(¹⁶O, np), E=70 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ)(ADO), isomer half-lives by γ(t), g factors by γ(t, θ, H) time-differential perturbed angular distribution (TDPAD) at Tandem accelerator facility of IFIN-HH at Bucharest. ¹³⁰La; deduced low and medium spin levels, J, π, conversion coefficient, multipolarity, configuration, electric quadrupole coupling constant. Comparison with two-quasiparticles plus rotor model calculations.

NUCLEAR MOMENTS ¹³⁰La; measured γ(t, θ, H) time-differential perturbed angular distribution (TDPAD); deduced isomeric state g factor, quadrupole coupling constant in polycrystalline metallic Sn lattice.

NUCLEAR STRUCTURE ¹³⁰La; calculated levels, J, π using two-quasiparticles plus rotor model. Comparison with experimental data.

doi: 10.1103/PhysRevC.90.014323

2014LO01

Phys.Rev. C 89, 014314 (2014)

D.Lonardoni, F.Pederiva, S.Gandolfi

Accurate determination of the interaction between Λ hyperons and nucleons from auxiliary field diffusion Monte Carlo calculations

NUCLEAR STRUCTURE ^3,4H, ^4,5,6,7He, ¹³C, ^16,17,18O, ^41,49Ca, ⁹¹Zr; calculated binding energies of single (Λ) hypernuclei, and double (ΛΛ) hypernucleus ⁶He with and without charge symmetry breaking (CSB) interaction. Solution of the Schrodinger equation for nonrelativistic baryons by auxiliary field diffusion quantum Monte Carlo (AFDMC) algorithm. Contribution of two- and three-body hyper-nucleon forces to the binding energy of hypernuclei. Comparisons with experimental data.

doi: 10.1103/PhysRevC.89.014314

2018IO02

Phys.Rev. C 98, 054305 (2018)

M.Ionescu-Bujor, S.Aydin, N.Marginean, C.Costache, D.Bucurescu, N.Florea, T.Glodariu, A.Ionescu, A.Iordachescu, R.Marginean, C.Mihai, R.E.Mihai, A.Mitu, A.Negret, C.R.Nita, A.Olacel, S.Pascu, B.Saygi, L.Stroe, R.Suvaila, S.Toma, A.Turturica

Lifetime measurements in the chiral-candidate doublet bands of ¹³⁰La

NUCLEAR REACTIONS ¹²¹Sb(¹²C, 3n), E=54 MeV; measured Eγ, γ(θ), γγ-coin, level half-lives by Doppler-shift attenuation method and the in-beam fast γγ(t) timing technique using the ROSPHERE array for γ detection at the FN Tandem accelerator of IFIN-HH, Bucharest. ¹³⁰La; deduced levels, J, π, chiral band doublet, B(E1), B(M1), B(E2), energy separation and staggering of yrast and sideband, configuration. Comparison with theoretical predictions from two-quasiparticles-plus triaxial rotor model (TQRM).

doi: 10.1103/PhysRevC.98.054305

2020IO02

Phys.Rev. C 102, 044311 (2020)

M.Ionescu-Bujor, S.Aydin, A.Iordachescu, N.Marginean, S.Pascu, D.Bucurescu, C.Costache, N.Florea, T.Glodariu, A.Ionescu, R.Marginean, C.Mihai, R.E.Mihai, A.Mitu, A.Negret, C.R.Nita, A.Olacel, B.SaygI, L.Stroe, R.Suvaila, S.Toma, A.Turturica

Band structures, lifetimes, and shape coexistence in ¹³⁰La

NUCLEAR REACTIONS ¹²¹Sb(¹²C, 3n)¹³⁰La, E=54 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ)(ADO), isomer and level half-lives by γγ(t) using the ROSPHERE array of 14 HPGe detectors and 11 LaBr3(Ce) scintillators at the FN Tandem accelerator of IFINHH-Bucharest. ¹³⁰La; deduced high-spin levels, J, π, bands, multipolarities, configurations, B(M1), B(E2), transition quadrupole moments, β₂ deformation parameters. Comparison with two-quasiparticle-plus-rotor model calculations, and with geometrical model of Donau and Frauendorf for B(M1) strengths.

doi: 10.1103/PhysRevC.102.044311

Note: Additional references listed in dataset: 2020IOAA,. See dataset contents for details.