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NSR database version of May 9, 2024.

Search: Author = Jin Shizhao

Found 31 matches.

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2024WA19      Phys.Rev. C 109, 035806 (2024)

K.-L.Wang, A.Estrade, M.Famiano, H.Schatz, M.Barber, T.Baumann, D.Bazin, K.Bhatt, T.Chapman, J.Dopfer, B.Famiano, S.George, M.Giles, T.Ginter, J.Jenkins, S.Jin, L.Klankowski, S.Liddick, Z.Meisel, N.Nepal, J.Pereira, N.Rijal, A.M.Rogers, O.B.Tarasov, G.Zimba

Mass measurements of neutron-rich nuclei near N=70

doi: 10.1103/PhysRevC.109.035806
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2023HA40      Commun. Phys. 6, 220 (2023)

J.Han, Y.Ye, J.Lou, X.Yang, Q.Li, Z.Yang, Y.Yang, J.Wang, J.Xu, Y.Ge, H.Hua, Z.Li, B.Yang, Y.Liu, S.Bai, K.Ma, J.Chen, G.Li, Z.Hu, H.Yu, Z.Tan, L.Yang, S.Wang, L.Tao, W.Liu, Y.Jiang, J.Li, D.Wang, S.Huang, Y.Chen, W.L.Pu, K.Wei, J.Ma, H.Yang, P.Ma, S.Xu, Z.Bai, S.Jin, F.Duan, Y.Song, L.Hu, Y.Li, J.Li, S.Zhang, M.Huang, D.Wang, Z.Li

Nuclear linear-chain structure arises in carbon-14

RADIOACTIVITY ¹⁴C(α) [from ¹H(¹⁴C, ¹⁴C'), E=23 MeV/nucleon]; measured decay products, Eα, Iα. ¹⁴C; deduced Q-value, excitation energy spectra, resonant states in ¹⁴C, J, π, widths, σ(θ). Comparison with the antisymmetrized molecular dynamics (AMD) calculations. The Radioactive Ion Beam Line at the Heavy Ion Research Facility in Lanzhou (HIRFL-RIBLL1).

doi: 10.1038/s42005-023-01342-6
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2023LI06      Phys.Rev. C 107, 014320 (2023)

Z.Li, J.Zhu, T.Wang, M.Liu, J.Wang, Y.Yang, C.Lin, J.Ma, P.Ma, Z.Bai, Y.Yu, X.Zhang, X.Liu, F.Duan, C.G.Lu, H.Yang, X.Wei, J.Zhang, S.Jin, Z.Gao, Y.Hu, Y.Yao, J.Wang, S.Guo, W.Jiang, B.Yang, J.He

Cluster structure of ¹¹C investigated with a breakup reaction

NUCLEAR REACTIONS ¹²C(¹¹C, α)⁷Be, E=25 MeV/nucleon; measured reaction products, Eα, Iα, Eγ, Iγ, αγ-coin, (particle)α-coin; deduced invariant-mass spectra, exclusive σ, excitation functions. ¹¹C; deduced resonances, J, π, rotational bands, rotational parameter. Provided evidence for 2α+³He structure. DSSD-CsI(Tl) telescopes and scintillator detectors (LaBr:Ce₃ and NaI(Tl)) at heavy ion research facility in Lanzhou (HIRFL-RIBLL1).

doi: 10.1103/PhysRevC.107.014320
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2023ME12      Phys.Rev. C 108, 034602 (2023)

B.Mei, Y.Guan, N.Zeng, Z.Mai, J.Tu, T.Yu, S.Wang, X.Zhang, P.Ma, X.Xu, X.Tu, Y.Sun, Z.Sun, S.Tang, Y.Yu, F.Fang, D.Yan, S.Jin, Y.Zhao, S.Ma, Y.Zhang

Isotopic cross sections in fragmentation reactions of ^{12, 14}C, ^{14, 16}N, and ¹⁶O projectiles on a carbon target

doi: 10.1103/PhysRevC.108.034602
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2022LI72      Phys.Rev. C 106, 065804 (2022)

X.X.Li, L.X.Liu, W.Jiang, J.Ren, H.W.Wang, G.T.Fan, D.X.Wang, S.Y.Zhang, G.L.Yang, X.K.Li, Z.D.An, J.J.He, W.Luo, X.G.Cao, L.L.Song, Y.Zhang, X.R.Hu, Z.R.Hao, P.Kuang, B.Jiang, X.H.Wang, J.F.Hu, Y.D.Liu, C.W.Ma, Y.T.Wang, J.Su, L.Y.Zhang, Y.X.Yang, S.Feng, W.B.Liu, W.Q.Su, S.Jin, K.J.Chen

Experimental determination of the neutron resonance peak of ¹⁶²Er at 67.8 eV

NUCLEAR REACTIONS ¹⁶²Er(n, γ), E=20-100 eV; measured Eγ, Iγ; deduced neutron-capture yield, resonances, decay widths. Resonance parameters at 67.8 eV are extracted for the first time. R-matrix analysis. Comparison to other experimental results and ENDF/B-VIII.0 data. 4 C₆D₆ detectors. Neutron beam from Back-n Facility of the CSNS.

doi: 10.1103/PhysRevC.106.065804
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2022ME07      Phys.Rev. C 105, 064604 (2022)

B.Mei, J.Tu, X.Zhang, S.Wang, Y.Guan, Z.Mai, N.Zeng, X.Tu, Z.Sun, S.Tang, Y.Yu, F.Fang, D.Yan, S.Jin, Y.Zhao, S.Ma, Y.Zhang

New experimental evidence for universal odd-even staggering in fragmentation cross sections

NUCLEAR REACTIONS ²⁷Al, ^16,17,18O(⁷⁸Kr, X), E=300 MeV/nucleon; measured reaction products, Bρ, time of flight, ΔE; deduced production yields, odd-even staggering (OES) in fragmentation reaction for Z=5-45 with N-Z from 1–9. Systematics of odd-even staggering magnitudes for ⁷⁸Kr+Al₂O₃, ⁷⁸Kr+Be, ⁸⁴Kr+^112,124Sn and ⁸⁶Kr+Be/Ta. Fragmentation on Al₂O₃ target at RIBLL2 separator at the Heavy-Ion Research Facility in Lanzhou (HIRFL).

doi: 10.1103/PhysRevC.105.064604
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2022WA03      Phys.Lett. B 825, 136856 (2022)

Y.Wang, F.Guan, Q.Wu, X.Diao, Y.Huang, L.M.Lyu, Y.Qin, Z.Qin, D.Si, Z.Bai, F.Duan, L.Duan, Z.Gao, Q.Hu, R.J.Hu, G.Jin, S.Jin, J.Ma, P.Ma, J.Wang, P.Wang, Y.Wang, X.Wei, H.Yang, Y.Yang, G.Yu, Y.Yu, Y.Zhang, Q.Zhou, Y.Zhang, C.Ma, X.Hu, H.Wang, Y.Cui, J.Tian, Z.Xiao

The emission order of hydrogen isotopes via correlation functions in 30 MeV/u Ar+Au reactions

NUCLEAR REACTIONS ¹⁹⁷Au(⁴⁰Ar, X)¹H/²H/³H, E=30 MeV/nucleon; measured reaction products, Ep, Ip; deduced correlation functions, emission rates. The Compact Spectrometer for Heavy IoN Experiment (CSHINE), the Heavy Ion Research Facility at Lanzhou (HIRFL).

doi: 10.1016/j.physletb.2021.136856
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2022WA34      Phys.Rev. C 106, 044317 (2022)

S.Waniganeththi, D.E.M.Hoff, A.M.Rogers, C.J.Lister, P.C.Bender, K.Brandenburg, K.Childers, J.A.Clark, A.C.Dombos, E.R.Doucet, S.Jin, R.Lewis, S.N.Liddick, Z.Meisel, C.Morse, H.Schatz, K.Schmidt, D.Soltesz, S.K.Subedi

Establishing the ground-state spin of ⁷¹Kr

RADIOACTIVITY ⁷¹Kr(EC), (β⁺), (β⁺p) [from ⁹Be(⁹²Mo, X), E=140 MeV/nucleon, followed by separation of fragments using A1900 fragment separator and a Radio Frequency Fragment Separator (RFFS) at the NSCL-MSU facility]; measured particle identification plot of implanted ions, Eγ, Iγ, E(p), I(p), (implants)β-coin, (implants)(β-delayed protons)-coin, (implants)γγ-coin, (implants)βγ-coin, T_1/2 of decay of ⁷¹Kr; deduced absolute number of βγ-coin events, β events, absolute γ intensities, and intensities of β-delayed protons, logft for ground-state to ground-state superallowed β transition using SeGA array with 16 HPGe detectors for γ detection, and double-sided silicon-strip detector (DSSSDs) for particle detection. ⁷¹Kr; deduced Jπ and T_1/2 of the ground state, decay branching ratios. ⁷⁰Br; deduced T_1/2 of the 0+ g.s. and 9+ isomer. ⁷¹Br, ⁷⁰Se; deduced levels, J, π, β feedings, logft, I(p) feedings. Discussed structure of ⁷¹Kr and ⁷¹Br mirror nuclei. Comparison with previous experimental results.

doi: 10.1103/PhysRevC.106.044317
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2021BU03      Phys.Rev.Lett. 126, 142502 (2021)

A.Bulgac, I.Abdurrahman, S.Jin, K.Godbey, N.Schunck, I.Stetcu

Fission Fragment Intrinsic Spins and Their Correlations

RADIOACTIVITY ²³⁶U, ²⁴⁰Pu(SF); calculated fission fragment intrinsic spins and their correlations using two nuclear energy density functionals.

doi: 10.1103/PhysRevLett.126.142502
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2021JI16      Symmetry 13, 2278 (2021)

H.Jian, Y.Gao, F.Dai, J.Liu, X.Xu, C.Yuan, K.Kaneko, Y.Sun, P.Liang, G.Shi, L.Sun, L.Xayavong, C.Lin, J.Lee, Z.Li, Y.Yang, P.Li, R.Fan, S.Zha, H.Zhu, J.Li, Q.Gao, Z.Zhang, R.Chen, J.Wang, D.Wang, H.Wu, K.Wang, Y.Lam, F.Duan, P.Ma, Z.Gao, Q.Hu, Z.Bai, J.Ma, J.Wang, F.Zhong, C.Wu, D.Luo, Y.Jiang, Y.Liu, D.Hou, R.Li, N.Ma, W.Ma, G.Yu, D.Patel, S.Jin, Y.Wang, Y.Yu, Q.Zhou, P.Wang, L.Hu, X.Wang, H.L.Zang, Q.Zhao, L.Yang, P.Wen, F.Yang, H.Jia, G.Zhang, M.Pan, X.Wang, H.Sun, M.Wang, Z.Hu, X.Zhou, Y.Zhang, H.Xu, M.Liu, H.-J.Ong, W.Yang

β-Delayed γ Emissions of ²⁶P and Its Mirror Asymmetry

RADIOACTIVITY ²⁶P(β⁺), (EC) [from ⁹Be(³²S, X), E=80.6 MeV/nucleon, followed by separation using RIBBL1 at HRIBF, Lanzhou facility]; measured Eγ, Iγ, βγ-coin, T_1/2 of ²⁶P decay. ²⁶Si; deduced levels, J, π, β⁺+ϵ feedings, logft, mirror asymmetry parameter from comparison with the ϵ decay of mirror nucleus ²⁶Na to ²⁶Mg, mirror-energy differences (MEDs), and halo structure in ²⁶P. Comparison with shell-model calculations.

NUCLEAR REACTIONS ⁹Be(³²S, X)²²Na/²³Mg/²⁴Al/²⁵Si/²⁶P/²⁷S, E=80.6 MeV/nucleon; measured reaction products, particle-identification (PID) plot of ΔE vs TOF for the ions separated using RIBBL1 separator at HRIBF, Lanzhou facility.

doi: 10.3390/sym13122278
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2020BA14      Acta Phys.Pol. B51, 605 (2020)

M.C.Barton, S.Jin, P.Magierski, K.Sekizawa, G.Wlazlowski, A.Bulgac

Pairing Dynamics in Low-Energy Nuclear Collisions

doi: 10.5506/APhysPolB.51.605
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2020BA23      Nature(London) 581, 159 (2020)

H.Bao, J.Duan, S.Jin, X.Lu, P.Li, W.Qu, M.Wang, I.Novikova, E.E.Mikhailov, K.-F.Zhao, K.Molmer, H.Shen, Y.Xiao

Spin squeezing of 10¹¹ atoms by prediction and retrodiction measurements

ATOMIC PHYSICS ⁸⁷Rb; measured frequencies; deduced the degree of spin squeezing.

doi: 10.1038/s41586-020-2243-7
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2020HO06      Nature(London) 580, 52 (2020)

D.E.M.Hoff, A.M.Rogers, S.M.Wang, P.C.Bender, K.Brandenburg, K.Childers, J.A.Clark, A.C.Dombos, E.R.Doucet, S.Jin, R.Lewis, S.N.Liddick, C.J.Lister, Z.Meisel, C.Morse, W.Nazarewicz, H.Schatz, K.Schmidt, D.Soltesz, S.K.Subedi, S.Waniganeththi

Mirror-symmetry violation in bound nuclear ground states

RADIOACTIVITY ⁷³Sr(β⁺p), (β⁺), (EC) [from Be(⁹²Mo, X), E=140 MeV/nucleon]; measured decay products, Eβ, Iβ, Ep, Ip; deduced T_1/2, γ-ray energies, level scheme, J, π, branching ratios, isobaric-analogue state (IAS), log ft. Comparison with calculations, available data.

doi: 10.1038/s41586-020-2123-1
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2020HO17      Phys.Rev. C 102, 045810 (2020)

D.E.M.Hoff, A.M.Rogers, Z.Meisel, P.C.Bender, K.Brandenburg, K.Childers, J.A.Clark, A.C.Dombos, E.R.Doucet, S.Jin, R.Lewis, S.N.Liddick, C.J.Lister, C.Morse, H.Schatz, K.Schmidt, D.Soltesz, S.K.Subedi, S.M.Wang, S.Waniganeththi

Influence of ⁷³Rb on the ashes of accreting neutron stars

RADIOACTIVITY ⁷³Sr(β⁺), (β⁺p)[from ⁹Be(⁹²Mo, X), E=140 MeV/nucleon, followed by the separation and purification of ⁷³Sr beam by A1900 and radiofrequency fragment separators at NSCL-MSU, and implanted in double-sided silicon strip detector]; measured Ep, Ip. ⁷³Rb; deduced energy of the isobaric analogue state (IAS), J, π, isospin, S(p), β⁺+ϵ feedings and logft for transitions to the 3/2- g.s. and the IAS, influence of ⁷³Rb S(p) on x-ray bursts, and impact on the products of the rp process. Bayesian analysis of beta-delayed proton spectrum.

ATOMIC MASSES ⁷³Rb, ⁷³Sr; analyzed mass excesses by IMME analysis for A=73 isobars of ⁷³Sr, ⁷³Rb, ⁷³Kr and ⁷³Br; deduced mass excesses for ⁷³Rb and ⁷³Sr, and S(p) for ⁷³Rb. Comparison with data in AME2016.

doi: 10.1103/PhysRevC.102.045810
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2020JI12      Nature(London) 588, 57 (2020)

S.Jin, L.F.Roberts, S.M.Austin, H.Schatz

Enhanced triple-α reaction reduces proton-rich nucleosynthesis in supernovae

NUCLEAR REACTIONS ⁸Be(α, X)¹²C, ⁴He(α, X)⁸Be, E<0.5 MeV; analyzed available data; deduced rate of the triple-α reaction, impact on the synthesis of heavy elements in the Ga-Cd range in proton-rich neutrino-driven outflows of core-collapse supernovae.

doi: 10.1038/s41586-020-2948-7
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2019BU15      Phys.Rev. C 100, 014615 (2019)

A.Bulgac, S.Jin, I.Stetcu

Unitary evolution with fluctuations and dissipation

RADIOACTIVITY ²⁵⁸Fm(SF); calculated fission fragment mass yield distribution, total kinetic energy (TKE) distribution. ²⁴⁰Pu(SF); calculated fission trajectory in the quadrupole-octupole (Q₂₀-Q₃₀) plane. Quantum hydrodynamics equations using time dependent density functional theory with and without dissipation and fluctuation of collective degrees of freedom. Comparison with experimental data.

doi: 10.1103/PhysRevC.100.014615
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2019BU20      Phys.Rev. C 100, 034615 (2019)

A.Bulgac, S.Jin, K.J.Roche, N.Schunck, I.Stetcu

Fission dynamics of ²⁴⁰Pu from saddle to scission and beyond

NUCLEAR REACTIONS ²³⁹Pu(n, F), E=thermal, 2, 4, 5.5 MeV; calculated fission pathway for ²⁴⁰Pu along the mass quadrupole moment Q₂₀ using SeaLL1, SkM*, and UNEDF1 energy density functionals (EDFs), contours of neutron and proton densities, magnitudes and phases of neutron and proton pairing fields, snapshots of the induced fission of ²⁴⁰Pu with enhanced pairing strength, fission trajectories using SeaLL1 and SkM* EDFs, initial excitation energy, TKE, neutron and proton numbers, excitation energies of the heavy and light fission fragments (FFs), total excitation energy of FFs, average saddle-to-scission times, internal temperatures for the light and heavy FFs, average neutron multiplicity emitted by FFs as a function of incident neutron energy, time evolution of quadrupole Q₂₀ and octupole Q₃₀ moments of the light and heavy FFs before and after scission, number of neutrons emitted predominantly after scission; deduced minor effect of pairing strength on the fission dynamics. Calculations based on time-dependent superfluid local density approximation (TDSLDA), with no limit on pairing . Comparison with experimental data for average neutron multiplicities.

doi: 10.1103/PhysRevC.100.034615
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2019YA13      Yuan.Wul.Ping. 36, 135 (2019); Nucl.Phys.Rev. 36, 135 (2019)

Y.Yang, D.Pang, F.Duan, J.Wang, X.Liu, S.Jin, P.Ma, J.Ma, Z.Bai, Q.Hu

Study on Proton Drip-line Nucleus ⁸B

NUCLEAR STRUCTURE ⁸B; analyzed available data on reaction σ, longitudinal momentum distributions of fragments, electric quadrupole moment, fusion σ, and elastic scattering σ(θ).

doi: 10.11804/NuclPhysRev.36.02.135
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2018BU07      Phys.Rev. C 97, 044313 (2018)

A.Bulgac, M.McNeil Forbes, Sh.Jin, R.Navarro-Perez, N.Schunck

Minimal nuclear energy density functional

ATOMIC MASSES Z=8-120, N=10-160, A=16-270; calculated ground-state energies, binding energies/nucleon, Coulomb, surface and symmetry energy/nucleon, contribution to the ground-state energies of the terms quartic in isospin density for 2375 nuclei, S(2n) and S(2p) for 606 even-even nuclei, and compared with AME-2012 data; calculated radii for 345 even-even nuclei. ⁴⁸Ca, ²⁰⁸Pb; calculated proton and charge densities, and single particle energies for various orbitals. ²⁴⁰Pu; calculated potential energy surface, and fission pathway. N<300, Z<120; calculated proton and neutron driplines. Minimal nuclear energy density functional (NEDF) method called "SeaLL1". Comparison with other theoretical calculations.

doi: 10.1103/PhysRevC.97.044313
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2018GR08      Acta Phys.Pol. B49, 591 (2018)

J.Grineviciute, P.Magierski, A.Bulgac, S.Jin, I.Stetcu

Accuracy of Fission Dynamics Within the Time-dependent Superfluid Local Density Approximation

NUCLEAR STRUCTURE ²⁴⁰Pu; calculated fission time evolution (energy and quadrupole moment vs time) using Time-Dependent Superfluid Local Density Approximation (TDSLDA).

doi: 10.5506/aphyspolb.49.591
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2017BU13      Phys.Rev.Lett. 119, 052501 (2017)

A.Bulgac, S.Jin

Dynamics of Fragmented Condensates and Macroscopic Entanglement

doi: 10.1103/PhysRevLett.119.052501
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2017JI01      Phys.Rev. C 95, 044302 (2017)

S.Jin, A.Bulgac, K.Roche, G.Wlazlowski

Coordinate-space solver for superfluid many-fermion systems with the shifted conjugate-orthogonal conjugate-gradient method

NUCLEAR STRUCTURE ⁴⁰Ca, ⁶²Ni, ¹⁰²Zr, ²⁰⁸Pb, ²⁴⁰Pu; calculated ground states and various densities such as particle number, spin, current, kinetic energy for a nuclear system, and saddle point constrained fission path for ²⁴⁰Pu; nuclei served as benchmarks for calculations using shifted conjugate orthogonal conjugate-gradient (COCG) Krylov method.

doi: 10.1103/PhysRevC.95.044302
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2017ZH18      Phys.Rev. C 95, 041602 (2017)

Y.Zhang, J.Tian, W.Cheng, F.Guan, Y.Huang, H.Li, L.Lu, R.Wang, Y.Wang, Q.Wu, H.Yi, Z.Zhang, Y.Zhao, L.Duan, R.J.Hu, M.Huang, G.Jin, S.Jin, C.G.Lu, J.Ma, P.Ma, J.Wang, H.Yang, Y.Yang, J.Zhang, Ya.Zhang, Y.Zhang, C.Ma, C.Y.Qiao, M.B.Tsang, Z.Xiao

Long-time drift of the isospin degree of freedom in heavy ion collisions

NUCLEAR REACTIONS Au(⁴⁰Ar, X), E=30 MeV/nucleon; measured light-charged particles (LCP), α-spectra, coincident fission fragments, (LCP)(fission fragments)-coin using parallel plate avalanche counters (PPAC) and nine ΔE telescopes at RIBLL-Lanzhou facility; deduced inclusive isotopic ratio for Z=1 and 2 isotopes as a function of laboratory angle, angular distribution of the relative neutron richness summed over the LCPs, drift of the isospin degree of freedom (IDOF). Comparison with ImQMD+GEMINI simulations.

doi: 10.1103/PhysRevC.95.041602
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2016LI45      Yuan.Wul.Ping. 33, 160 (2016); Nucl.Phys.Rev. 33, 160 (2016)

C.Lin, X.Xu, J.Wang, L.Sun, H.Jia, L.Yang, P.Ma, J.Ma, Y.Yang, S.Jin, M.Huang, Z.Bai, Z.Wu, F.Yang, Z.Hu, M.Wang, X.Lei, H.Zhang, H.Xu, G.Xiao

Proton and Two-proton Emissions from Proton-rich Nuclei with 10 ≤ Z ≤ 20

RADIOACTIVITY ^28,29S, ^26,27P, ^17,18Ne(2p), ²⁷S, ²⁶P, ^22,25Si, ²⁰Mg, ²³Si, ²²Al, ²¹Mg, ²⁴Si, ²³Al, ^36,37Ca(β⁺p), (β⁺2p); measured decay products, Ep, Ip; deduced energy, T_1/2, branching-ratios.

doi: 10.11804/NuclPhysRev.33.02.160#
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2016SU22      Yuan.Wul.Ping. 33, 230 (2016); Nucl.Phys.Rev. 33, 230 (2016)

L.Sun, X.Xu, C.Lin, J.Wang, D.Fang, Z.Li, Y.Wang, J.Li, L.Yang, N.Ma, K.Wang, H.Zhang, H.Wang, C.Li, C.Shi, M.Nie, X.Li, H.Li, J.Ma, P.Ma, S.Jin, M.Huang, Z.Bai, J.Wang, F.Yang, H.Jia, H.Zhang, Z.Liu, P.Bao, S.Wang, Z.Wu, Y.Yang, Z.Chen, J.Su, Y.Shen, Y.Zhou, W.Ma, J.Chen

An implantation and detection system for spectroscopy of ^{22, 24}Si

RADIOACTIVITY ^22,24Si(β⁺p); measured decay products, Ep, Ip; deduced energy levels, J, π, T_1/2, branchning ratios.

doi: 10.11804/NuclPhysRev.33.02.230
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2015LI29      Phys.Rev. C 92, 014623 (2015)

X.Liu, W.Lin, M.Huang, R.Wada, J.Wang, Z.Chen, Q.Wang, P.Ren, Y.Yang, S.Jin, P.Ma, J.Ma, Z.Bai, Q.Hu

Freezeout concept and dynamical transport model in intermediate-energy heavy-ion reactions

NUCLEAR REACTIONS ⁴⁰Ca(⁴⁰Ca, X), E=35, 50, 80, 100, 140, 300 MeV/nucleon; calculated density and temperature of intermediate mass fragments (IMFs), ratio of free energy to T₀ for N=Z isotopes using a self-consistent method with the modified Fisher (antisymmetrized molecular dynamics) model and Gogny interaction for three different density dependencies of the symmetry energy. Discussed direct connection between the freezeout concept and transport model simulations.

doi: 10.1103/PhysRevC.92.014623
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2000JI05      Nucl.Phys. A675, 88c (2000)

S.Jin

The Signal Estimator Limit Setting Method

doi: 10.1016/S0375-9474(00)00220-7
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1999AM07      Phys.Rev. D60, 032002 (1999)

M.Ambrogiani, S.Bagnasco, W.Baldini, D.Bettoni, G.Borreani, A.Buzzo, R.Calabrese, R.Cester, P.Dalpiaz, X.Fan, G.Garzoglio, K.E.Gollwitzer, A.Hahn, S.Jin, J.Kasper, G.Lasio, M.Lo Vetere, E.Luppi, P.Maas, M.Macri, M.Mandelkern, F.Marchetto, M.Marinelli, W.Marsh, M.Martini, E.Menichetti, R.Mussa, M.M.Obertino, M.Pallavicini, N.Pastrone, C.Patrignani, T.K.Pedlar, J.Peoples, Jr., S.Pordes, E.Robutti, J.Rosen, P.Rumerio, A.Santroni, M.Savrie, J.Schultz, K.K.Seth, G.Stancari, M.Stancari, J.Streets, A.Tomaradze, S.Werkema, G.Zioulas

Measurements of the Magnetic Form of the Proton in the Timelike Region at Large Momentum Transfer

NUCLEAR REACTIONS ¹H(p-bar, ee⁺), E(cm)=2.9-4.3 GeV; measured σ, invariant mass spectra. ¹H deduced magnetic form factor. Non-magnetic spectrometer.

doi: 10.1103/PhysRevD.60.032002
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1997YE06      Nucl.Instrum.Methods Phys.Res. A398, 224 (1997)

B.Ye, X.Yu, Y.Fan, Z.Wang, S.Jin, R.Han, H.Du, Z.Xiao

Particle Identification in the Measurement of Differential (n, x) Cross Sections

NUCLEAR REACTIONS Ni(n, X), E=14.6 MeV; measured p-, α-spectra; deduced detector system perfomance.

doi: 10.1016/S0168-9002(97)00325-2
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1983CH52      Chin.J.Nucl.Phys. 5, 113 (1983)

Chen Baoqiu, Jin Shizhao, Chen Jiafu, Tian Baoyin

d + d Four-Body Break Up Process

NUCLEAR REACTIONS ²H(d, 2p), E=80 MeV; calculated σ(θ₁, θ₂, E₁, E₂). PWBA, four-body breakup, two spectator quasifree scattering.

1983CH59      Chin.J.Nucl.Phys. 5, 63 (1983)

Chen Baoqiu, Chen Jiafu, Tian Baoying, Jin Shizhao

⁶Li + ⁶Li → 3α Reaction

NUCLEAR REACTIONS ⁶Li(⁶Li, 2α), E ≤ 24 MeV; calculated breakup yield vs E; deduced reaction mechanism.