NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = J.Zeng Found 56 matches. 2023ZE01 Nucl.Phys. A1030, 122569 (2023) J.Zeng, C.Zhu, Y.Gong, L.Jiang, C.Zhang, J.Qin, X.Guo, P.Zheng, S.Tang, Q.Xiang, F.Hao, X.Lu, Y.Xiang, T.Zhu High-precision cross sections measurement of (n, 2n) reactions on 124Xe and 78Kr isotopes in the 14 MeV region NUCLEAR REACTIONS 78Kr, 124Xe, 93Nb(n, 2n), E ∼ 14 MeV; measured reaction products, Eγ, Iγ; deduced σ and uncertainties. Comparison with TALYS calculations. The PD-300 neutron generator at the Institute of Nuclear Physics and Chemistry of the China Academy of Engineering Physics.
doi: 10.1016/j.nuclphysa.2022.122569
2021CH46 J.Radioanal.Nucl.Chem. 329, 1393 (2021) C.Chu, G.Hu, X.Guo, Q.Liu, W.Li, F.Hao, Q.Xiang, J.Zeng, Y.Zhang Half-life determination of 88Kr based on rapid Kr-Xe separation RADIOACTIVITY 88Kr(β-) [from U(n, F), E thermal]; measured decay products, Eγ, Iγ; deduced γ-ray energies, T1/2 and uncertainties. Comparison with available data.
doi: 10.1007/s10967-021-07881-y
2021ZE01 Appl.Radiat.Isot. 168, 109511 (2021) J.Zeng, Y.Zhang, Y.Gong, F.Luo, Q.Xiang, Y.Xiang, F.Hao High-precision half-life measurement of 123Xe and 125Xe for fuel areal density diagnosing in inertial confinement fusion RADIOACTIVITY 123,125Xe(β+), (EC) [from 124,126Xe(n, 2n), E=14 MeV]; measured decay products, Eγ, Iγ; deduced T1/2 and uncertainties. Comparison with available data.
doi: 10.1016/j.apradiso.2020.109511
2020CH15 Phys.Rev. C 101, 034902 (2020) A.Chatterjee, Y.Zhang, J.Zeng, N.R.Sahoo, X.Luo Effect of centrality selection on higher-order cumulants of net-proton multiplicity distributions in relativistic heavy-ion collisions
doi: 10.1103/PhysRevC.101.034902
2020CH42 Appl.Radiat.Isot. 166, 109366 (2020) C.Chu, Q.Xiang, J.Zeng, Y.Zhang, X.Guo, F.Hao, G.Hu, J.Zhang, L.Yang, Q.Liu, W.Li, L.Cui, Y.Liu Half-life determination of 88Rb using the 4πβ and 4πβγ-coincidence methods RADIOACTIVITY 88Rb(β-) [from U(n, X), E thermal]; measured decay products, Eγ, Iγ, Eβ, Iβ, β-γ-coin.; deduced T1/2 with uncertainties. Comparison with available data.
doi: 10.1016/j.apradiso.2020.109366
2019ZE02 Appl.Radiat.Isot. 152, 101 (2019) J.Zeng, Y.Gong, X.Guo, Q.Xiang, F.Hao, Y.Xiang, C.Zhang Half-life determination of 77Kr using the reference source method RADIOACTIVITY 77Kr(EC) [from 78Kr(n, 2n), E<14 MeV]; measured decay products, Eγ, Iγ; deduced γ-ray energies, T1/2. Comparison with available data, ENSDF library.
doi: 10.1016/j.apradiso.2019.06.033
2017CH01 At.Data Nucl.Data Tables 113, 258 (2017) Z.-B.Chen, K.Ma, H.-J.Wang, K.Wang, X.-B.Liu, J.-L.Zeng Energy levels, oscillator strengths, line strengths, and transition probabilities in Si-like ions of La XLIII, Er LIV, Tm LV, and Yb LVI ATOMIC PHYSICS La, Er, Tm, Yb; calculated energy levels and E1 transition rates of Si-like ions; deduced Breit interaction and Quantum Electrodynamics effects.
doi: 10.1016/j.adt.2016.03.002
2015HU09 Eur.Phys.J. A 51, 159 (2015) Y.Hu, J.Zeng, Q.Li, F.Zhou, D.Zhou, W.Xiang On the analytic proton structure function with heavy quarks
doi: 10.1140/epja/i2015-15159-y
2015LI31 Phys.Rev. A 92, 012701 (2015) P.Liu, J.Zeng, A.Borovik, Jr., S.Schippers, and A.Muller Electron-impact ionization of Xe24+ ions: Theory versus experiment NUCLEAR REACTIONS Xe(E, X), E<4 keV; measured reaction products; deduced absolute and energy-scanned electron-impact ionization σ of Xe24+ ions in their ground level. Comparison with theoretical calculations.
doi: 10.1103/PhysRevA.92.012701
2014KA56 Sci. Rep. 4, 5484 (2014) D.Kang, H.Sun, J.Dai, W.Chen, Z.Zhao, Y.Hou, J.Zeng, J.Yuan Nuclear quantum dynamics in dense hydrogen
doi: 10.1038/srep05484
2013LI31 J.Phys.(London) B46, 145002 (2013) Auger energies, branching ratios, widths and x-ray rates of double K-vacancy states of Ne2 +: a close-coupling calculation ATOMIC PHYSICS Ne; calculated atomic parameters, KK-KL x-ray energy, rate and autoionization width of the double K-vacancy state, together with KK-KLL Auger energies and branching ratios of the main channels. A close-coupling calculation is performed for the photoionization cross section of the high-lying core-excited state in Ne.
doi: 10.1088/0953-4075/46/14/145002
2013ZH16 Phys.Rev. C 87, 054314 (2013) Z.-H.Zhang, P.-W.Zhao, J.Meng, J.-Y.Zeng, E.-G.Zhao, S.-G.Zhou Nuclear superfluidity for antimagnetic rotation in 105Cd and 106Cd NUCLEAR STRUCTURE 105,106Cd; calculated Nilsson levels for protons and neutrons, kinematic moments of inertia, B(E2), angular momentum vectors of neutrons with and without pairing, anti-magnetic rotational bands, shears angle. Cranked shell model with the pairing correlations and particle-number-conserving method. Comparison with experimental data.
doi: 10.1103/PhysRevC.87.054314
2012ZH01 Phys.Rev. C 85, 014324 (2012) Z.-H.Zhang, X.-T.He, J.-Y.Zeng, E.-G.Zhao, S.-G.Zhou Systematic investigation of the rotational bands in nuclei with Z ≈ 100 using a particle-number conserving method based on a cranked shell model NUCLEAR STRUCTURE 240,242,244,246,248,250,252Cm, 242,244,246,248,250,252,254Cf, 244,246,248,250,252,254,256Fm, 246,248,250,252,254,256,258No, 250Bk; calculated quadrupole deformation parameters β2, β4, moment of inertia plots, alignments, occupation probabilities, contribution of neutron and proton major shells to angular momentum alignments. 245Cm, 250Fm; calculated energies of Nilsson orbitals. 241,243,245,247,249Cm, 243,245,247,249,251Cf, 245,247,249,251,253Fm, 247,249,251,253,255No, 243,245,247,249,251Bk, 245,247,249,251,253Es, 247,249,251,253,255Md, 255Lr; calculated bandhead energies of low-lying one-quasiparticle bands, moments of inertia plots of g.s. and excited bands, alignments, occupation probabilities, contribution of neutron and proton major shells to angular momentum alignments. Cranked shell model (CSM), particle-number conserving (PNC) method. Comparison with experimental data.
doi: 10.1103/PhysRevC.85.014324
2011WU03 Phys.Rev. C 83, 034323 (2011) X.Wu, Z.H.Zhang, J.Y.Zeng, Y.A.Lei Nuclear pairing reduction due to rotation and blocking NUCLEAR STRUCTURE 168Yb, 168Hf, 177Ta, 178W, 193,194Hg, 238U, 253No; calculated moments of inertia and pairing gaps for normal deformed and superdeformed bands. Particle number-conserving (PNC) formalism for the cranked shell model. Comparison with number-projected Hartree-Fock-Bogolyubov approach, and with experimental data.
doi: 10.1103/PhysRevC.83.034323
2011ZH03 Phys.Rev. C 83, 011304 (2011) Z.Zhang, J.Zeng, E.Zhao, S.Zhou Particle-number conserving analysis of rotational bands in 247, 249Cm and 249Cf NUCLEAR STRUCTURE 247,249Cm, 249Cf; analyzed rotational bands, moments of inertia and alignments and their variations with the rotational frequency, level crossings and upbendings using cranked-shell model with the pairing correlations treated by particle-number conserving method (PNC-CSM). Role of the intruder proton (N=6) i13/2 proton orbitals and absence of alignment of j15/2 neutrons discussed. Comparison with experimental data.
doi: 10.1103/PhysRevC.83.011304
2010ZH17 Chin.Phys.C 34, 39 (2010) Z.-H.Zhang, S.-T.Qi, B.-X.Sun, Y.-A.Lei, J.-Y.Zeng Particle-number-conserving analysis of multiquasiparticle bands in 177Lu NUCLEAR STRUCTURE 177Lu; analyzed one-, three- and five-quasiparticle bands; deduced moment of inertia. Particle number conserving (PNC) method.
doi: 10.1088/1674-1137/34/1/007
2009ZH04 Nucl.Phys. A816, 19 (2009) Z.H.Zhang, X.Wu, Y.A.Lei, J.Y.Zeng Particle-number conserving analysis of the moments of inertia of high-K multiquasiparticle bands in 179Ta NUCLEAR STRUCTURE 179Ta; calculated quasiparticle band energies, configurations. Particle-number-conserving cranked mean-field approach, comparison with data.
doi: 10.1016/j.nuclphysa.2008.10.008
2009ZH26 Phys.Rev. C 80, 034313 (2009) Particle-number conserving analysis for the systematics of high-K pair-broken bands in Hf and Lu isotopes (170 ≤ A ≤ 178) NUCLEAR STRUCTURE 170,171,172,173,174,175,176,177,178Hf, 171,173,175,177Lu, 170,172,174,176Yb; analyzed one-quasiparticle, and low-lying high-K pair broken band structures in the framework of the particle-number conserving (PNC) formalism
doi: 10.1103/PhysRevC.80.034313
2006ZH45 Int.J.Mod.Phys. E15, 1813 (2006) R.R.Zheng, S.Q.Zhu, Y.C.Yang, J.Y.Zeng, S.X.Liu, E.G.Zhao Angular momentum projection after variation for cranking shell model
doi: 10.1142/S0218301306005393
2005HE01 Eur.Phys.J. A 23, 217 (2005) X.T.He, S.X.Liu, S.Y.Yu, J.Y.Zeng, E.G.Zhao The i13/2 proton intruder orbital and the identical superdeformed bands in 193, 194, 195Tl NUCLEAR STRUCTURE 193,194,195Tl; calculated superdeformed bands energies, configurations; deduced role of proton blocking. Particle-number-conserving cranked mean-field approach, comparison with data.
doi: 10.1140/epja/i2004-10092-x
2005HE21 Nucl.Phys. A760, 263 (2005) X.T.He, S.Y.Yu, J.Y.Zeng, E.G.Zhao The intruder orbitals in superdeformed bands and alignment additivity of odd-odd nuclei in the A ∼ 190 region NUCLEAR STRUCTURE 191,192,193Tl, 191,193,194Hg; calculated superdeformed bands configurations, moments of inertia, angular momentum alignment. Particle-number-conserving cranked mean field approach.
doi: 10.1016/j.nuclphysa.2005.06.006
2004LI18 Nucl.Phys. A735, 77 (2004) Particle-number-conserving treatment for the backbending in Yb isotopes NUCLEAR STRUCTURE 164,166,168,170,172,174Yb; calculated rotational bands moments of inertia, occupation probabilities; deduced backbending mechanism. Cranked shell model, particle-number conservation.
doi: 10.1016/j.nuclphysa.2004.02.007
2004LI37 Nucl.Phys. A736, 269 (2004) Band crossing and the N = 7 intruder orbital in superdeformed nucleus 193Hg NUCLEAR STRUCTURE 193Hg; calculated superdeformed bands moments of inertia, configurations. Particle-number conserving method, comparison with data.
doi: 10.1016/j.nuclphysa.2004.03.036
2002LI41 Appl.Radiat.Isot. 57, 399 (2002) Y.Li, S.Shen, S.Shi, J.Gu, X.Yu, J.Liu, J.Zeng A Decay Study of 70As RADIOACTIVITY 70As(EC), (β+) [from 70Ge(p, n)]; measured Eγ, Iγ, γγ-coin. 70Ge deduced levels, J, π.
doi: 10.1016/S0969-8043(02)00126-4
2002LI50 Phys.Rev. C66, 024320 (2002) Microscopic mechanism of identical superdeformed bands in 192, 193, 194Hg NUCLEAR STRUCTURE 192,193,194Hg; calculated superdeformed bands moments of inertia, related features; deduced mechanisms for identical band phenomena.
doi: 10.1103/PhysRevC.66.024320
2002LI61 Phys.Rev. C 66, 067301 (2002) Nonadditivity in nuclear moments of inertia and interference between blocking effects NUCLEAR STRUCTURE 172,173,174Hf, 192,193,194Hg; analyzed rotational bands moments of inertia, blocking effects.
doi: 10.1103/PhysRevC.66.067301
2002ME10 Phys.Rev. C65, 041302 (2002) J.Meng, H.Toki, J.Y.Zeng, S.Q.Zhang, S.-G.Zhou Giant Halo at the Neutron Drip Line in Ca Isotopes in Relativistic Continuum Hartree-Bogoliubov Theory NUCLEAR STRUCTURE O, Ca, Ni, Zr, Sn, Pb; calculated two-neutron separation energies, neutron radii. 58,60,62,64,66,68,70,72Ca; calculated single-particle levels, occupation probabilities. Relativistic continuum Hartree-Bogoliubov theory.
doi: 10.1103/PhysRevC.65.041302
2002ZE03 Phys.Rev. C65, 044307 (2002) J.Y.Zeng, S.X.Liu, L.X.Gong, H.B.Zhu Blocking Effect and the Moments of Inertia of High-K Multiquasiparticle Bands in 172, 173, 174, 175Hf NUCLEAR STRUCTURE 172,173,174,175Hf; calculated rotational bands moments of inertia, relative alignments; deduced blocking effects. Particle-number-conserving cranked mean-field approach.
doi: 10.1103/PhysRevC.65.044307
2002ZH09 Chin.Phys.Lett. 19, 312 (2002) S.-Q.Zhang, J.Meng, S.-G.Zhou, J.-Y.Zeng Giant Neutron Halo in Exotic Calcium Nuclei NUCLEAR STRUCTURE 34,36,38,40,42,44,46,48,50,52,54,56,58,60,62,64,66,68,70,72Ca; calculated binding energies, two-neutron separations energies, radii, density distributions, neutron halo features.
doi: 10.1088/0256-307X/19/3/308
2002ZH11 Eur.Phys.J. A 13, 285 (2002) S.Q.Zhang, J.Meng, S.-G.Zhou, J.Y.Zeng Isospin and Z1/3-Dependence of the Nuclear Charge Radii NUCLEAR STRUCTURE Ca, Ni, Zr, Sn, Pb; calculated 2-neutron separation energies, rms charge radii. A=40-250; calculated rms charge radii; deduced dependence on Z1/3 and isospin following comparison with data.
doi: 10.1007/s10050-002-8757-6
2001ZE01 Phys.Rev. C63, 024305 (2001) J.Y.Zeng, S.X.Liu, Y.A.Lei, L.Yu Microscopic Mechanism of Normally Deformed Identical Bands at Low Spin in the Rare-Earth Nuclei NUCLEAR STRUCTURE 171Lu, 172Hf, 170,171Yb; calculated rotational bands moments of inertia; deduced microscopic mechanism for normally-deformed identical bands. Cranked mean field with particle-number conservation, comparisons with data.
doi: 10.1103/PhysRevC.63.024305
2000LI05 J.Phys.(London) G26, 79 (2000) S.X.Liu, X.B.Xin, Y.A.Lei, J.Y.Zeng Influence of Band Interaction on the Spin Prediction of Superdeformed Rotational Bands NUCLEAR STRUCTURE 142Sm, 147Eu, 149,150Gd, 150,151Tb, 151,152,153,154Dy, 192,193Hg; analyzed superdeformed bands transition energies; deduced bandheads spin and moment of inertia of superdeformed bands. Comparison with other methods, band crossing and mixing discussed.
doi: 10.1088/0954-3899/26/1/308
2000LI46 Chin.Phys.Lett. 17, 871 (2000) Microscopic Mechanism of the Odd-Even Difference in Moments of Inertia of Superdeformed Bands NUCLEAR STRUCTURE 195Tl, 196Pb; calculated superdeformed bands moments of inertia, configurations. Particle-number conserving method, comparison with data.
2000XI01 Chin.Phys.Lett. 17, 94 (2000) X.-B.Xin, Y.-A.Lei, S.-X.Liu, J.-Y.Zeng Influence of Quadrupole Pairing on the Variation of J(2) of the Superdeformed Band 194Hg(1) NUCLEAR STRUCTURE 194Hg; calculated superdeformed band moment of inertia; deduced role of quadrupole pairing. Particle-number-conserving cranked mean field.
doi: 10.1088/0256-307X/17/2/006
2000XI02 Phys.Rev. C62, 067303 (2000) X.B.Xin, S.X.Liu, Y.A.Lei, J.Y.Zeng Quadrupole Pairing and Downturn of Moment of Inertia for the Superdeformed Band 194Hg(1) NUCLEAR STRUCTURE 192,194Hg; calculated superdeformed bands moments of inertia; deduced configurations. Particle-number-conserving cranked mean-field approach.
doi: 10.1103/PhysRevC.62.067303
1999FA20 High Energy Phys. and Nucl.Phys. (China) 23, 820 (1999) K.Fang, J.Liu, S.Shi, J.Gu, J.Zeng, X.Yu, S.Shen, Y.Li Decay of 95Ru
1999LI35 Chin.Phys.Lett. 16, 632 (1999) Spin Assignment of the First Discoved Superdeformed Band 152Dy(1) and Some Superdeformed Bands in Neighboring Nuclei NUCLEAR STRUCTURE 152,153,154Dy; analyzed superdeformed bands; deduced spins.
doi: 10.1088/0256-307X/16/9/004
1999LI56 High Energy Phys. and Nucl.Phys. (China) 23, 320 (1999) Y.Li, J.Gu, X.Yu, J.Liu, Y.Cao, J.Zeng, W.Li, S.Shi Study of the Low Excited States of 72Ge
1998LE13 Chin.Phys.Lett. 15, 323 (1998) Construction of Paired States in Axially Symmetric Nuclei and Diabolic Pair Transfer
doi: 10.1088/0256-307X/15/5/005
1998LI54 Phys.Rev. C58, 3266 (1998) Variation of Moments of Inertia with Angular Momentum and Systematics of Bandhead Moments of Inertia of Superdeformed Bands NUCLEAR STRUCTURE 166Er, 169Lu, 189,190,191,192,193,194,195Hg, 192,193,194Tl, 198Po, 192,193,194,195,196,197,198Pb, 240,242Pu; analyzed superdeformed bands transition energies; deduced bandhead spins.
doi: 10.1103/PhysRevC.58.3266
1998YU07 High Energy Phys. and Nucl.Phys. (China) 22, 1082 (1998) X.Yu, S.Shi, J.Gu, J.Liu, W.Li, J.Zeng, J.Tian, Y.Li, J.Zhou Low-lying level structure of 83Rb
1997HU13 Phys.Rev. C56, 2523 (1997) Comparison of the Harris and ab Expressions for the Description of Nuclear Superdeformed Rotational Bands NUCLEAR STRUCTURE 190,191,192,193,194Hg, 192,193,194,195,196,198Pb, 191Au, 193,195Tl; analyzed superdeformed transition energies; deduced parameters. Harris formula, "ab" expression.
doi: 10.1103/PhysRevC.56.2523
1994ZE06 Phys.Rev. C50, 746 (1994) J.Y.Zeng, Y.A.Lei, T.H.Jin, Z.J.Zhao Blocking Effect and Odd-Even Differences in the Moments of Inertia of Rare-Earth Nuclei NUCLEAR STRUCTURE 155,157,159Eu, 157,159,161,163Tb, 159,161,163,165,167Ho, 163,165,167,169,171,173Tm, 169,171,173,175Lu; analyzed moments of inertia odd-even differences. 160,161,162Dy, 164,165,166Er, 171Lu, 170Yb, 172Hf; calculated bandhead moments of inertia; deduced blocked levels associated features. Particle-number conserving treatment.
doi: 10.1103/PhysRevC.50.746
1994ZE07 Phys.Rev. C50, 1388 (1994) Reduction of Nuclear Moment of Inertia Due to Pairing Interaction NUCLEAR STRUCTURE 160,162,164Dy, 162,164,166,168,170Er, 166,168,170,172,174,176Yb, 170,172,174,176,178,180,182Hf, 176,178,180,182,184,186W; calculated nucleon pairing strengths, ground bands moment of inertia. Cranked shell model, particle number conserving treatment.
doi: 10.1103/PhysRevC.50.1388
1994ZE12 Chin.J.Nucl.Phys. 16, No 3, 228 (1994) The Deformed Hartree-Fock States of A ≈ 70 Even-Even Nuclei NUCLEAR STRUCTURE 66,68,70Zn, 68,70,72Ge, 70,72,74Se, 76Kr; calculated levels; deduced shape transitions, shape coexistence related features. Deformed Hartree-Fock method, Kuo-Brown matrix elements.
1992WU01 Phys.Rev. C45, 261 (1992) C.S.Wu, J.Y.Zeng, Z.Xing, X.Q.Chen, J.Meng Spin Determination and Calculation of Nuclear Superdeformed Bands in A ≈ 190 Region NUCLEAR STRUCTURE 190,191,192,193,194Hg, 193,194Tl, 194,196Pb; calculated superdeformed bands, transition energies. Two-parameter approach.
doi: 10.1103/PhysRevC.45.261
1992WU05 Phys.Rev. C45, 2507 (1992) C.S.Wu, L.Cheng, C.Z.Lin, J.Y.Zeng Relation between the Kinematic and Dynamic Moments of Inertia in Superdeformed Nuclei NUCLEAR STRUCTURE 164,166Er, 168,170,172,174,176Yb, 170,172,174,176,178Hf, 238U, 242Pu, 248Cm; analyzed ground state bands data. 191,192,193,194Hg, 193,194Tl, 194,196Pb, 151,152Dy, 150Tb, 150Gd; analyzed superdeformed band level data; deduced R-parameter remains independent of spin.
doi: 10.1103/PhysRevC.45.2507
1991ME09 Phys.Rev. C44, 2545 (1991) Deviation of the SU(q)(2) Prediction from Observations in Even-Even Deformed Nuclei NUCLEAR STRUCTURE A=150-250; calculated I(I+1) expansion coefficients relationships. 238U, 174Yb; calculated energies. 238U, 170Hf; calculated Eγ vs spin. 232Th, 236U, 242Pu, 248Cm; calculated q-deformation parameter vs spin; deduced deviations from SU(q)(2) prediction.
doi: 10.1103/PhysRevC.44.2545
1991WU03 Phys.Rev.Lett. 66, 1022 (1991) Yrast-Yrare Interaction Strength NUCLEAR STRUCTURE 166,168,170,172Yb; calculated yrast, yrare bands; deduced interaction features. Particle number conserving formalism.
doi: 10.1103/PhysRevLett.66.1022
1991ZE01 Phys.Rev. C44, R1745 (1991) J.Y.Zeng, J.Meng, C.S.Wu, E.G.Zhao, Z.Xing, X.Q.Chen Spin Determination and Quantized Alignment in the Superdeformed Bands in 152Dy, 151Tb, and 150Gd NUCLEAR STRUCTURE 152Dy, 151Tb, 150Gd; analyzed data. 152Dy deduced superdeformed band lowest level J. 152Dy, 151Tb, 150Gd deduced superdeformed band quantized alignment.
doi: 10.1103/PhysRevC.44.R1745
1990ZE01 Phys.Rev. C41, 2911 (1990) J.Y.Zeng, C.S.Wu, L.Cheng, C.Z.Lin K(π) = 0+ Band Moment of Inertia Anomaly NUCLEAR STRUCTURE 168Er; calculated levels, moment of inertia. Cranked shell model, particle-number-conserving approach, many-particle configuration, K-truncation.
doi: 10.1103/PhysRevC.41.2911
1989HU05 Phys.Rev. C39, 1617 (1989) Calculation of Rotational Spectra of Well-Deformed Nuclei Up to Very High Spins NUCLEAR STRUCTURE 248Cm, 244,242,240,238,236Pu, 238,236,230,234,232U, 232,230,228Th, 178,176,174,172,170Hf, 176,174,172,170,168Yb, 166,164Er, 164,162Dy, 156Gd; calculated levels. Three-parameter formula.
doi: 10.1103/PhysRevC.39.1617
1989XU04 Phys.Rev. C40, 2337 (1989) Relations for the Coefficients in the I(I+1) Expansion for Rotational Spectra NUCLEAR STRUCTURE 248Cm, 244,242,240,238,236Pu, 238,236,234,232,230U, 232,230,228Th, 178,176,174,172,170Hf, 176,174,172,170,168Yb, 166,164Er, 164,162Dy, 156Gd; analyzed rotational band energies; deduced model parameters. Four-parameter I(I+1) expansion.
doi: 10.1103/PhysRevC.40.2337
1984ZE01 Nucl.Phys. A414, 253 (1984) J.Y.Zeng, T.S.Cheng, L.Cheng, C.S.Wu Residual Quasiparticle Interaction due to Blocking NUCLEAR STRUCTURE 162,163,164Yb, 166,167,168Er; calculated Nilsson level occupation probabilities; deduced blocking effect dependent residual interaction. Particle number conserving method.
doi: 10.1016/0375-9474(84)90643-2
1983ZE04 Nucl.Phys. A405, 1 (1983) Particle-Number-Conserving Method for Treating the Nuclear Pairing Correlation NUCLEAR STRUCTURE 124,126,128,130,132,134,136,138Sn, 74,76,78,80,82,84,86Kr, 92,94,96,98,100,102Mo; calculated pair rotational spectra. 90Zr, 140Ce; calculated pair vibrational spectra. Nuclear pairing correlation, particle number conservation.
doi: 10.1016/0375-9474(83)90320-2
1983ZE05 Nucl.Phys. A411, 49 (1983) J.Y.Zeng, T.S.Cheng, L.Cheng, C.S.Wu Pairing Reduction due to the Blocking Effect NUCLEAR STRUCTURE 161Er, 173W, 181Os; calculated blocking effect induced pairing reduction; analyzed band crossing frequency anomalies. Pairing number conserving method.
doi: 10.1016/0375-9474(83)90507-9
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