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NSR database version of May 24, 2024.

Search: Author = C.Jiang

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2023CH55      Phys.Rev. C 108, 065806 (2023)

M.Chen, D.Guan, Ch.Jiang, J.Pei

Speed of sound and phase transitions in neutron stars indicated by the thick neutron skin of 208Pb

doi: 10.1103/PhysRevC.108.065806
Citations: PlumX Metrics


2023JI05      Phys.Rev. C 107, 044308 (2023)

C.Jiang, J.Pei

Quantum computing of the pairing Hamiltonian at finite temperature

doi: 10.1103/PhysRevC.107.044308
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2023JI10      Phys.Rev. C 108, L051604 (2023)

C.L.Jiang, W.F.Henning, B.P.Kay, N.Watwood

Structures in the heavy-ion fusion excitation function at and above the Coulomb barrier

doi: 10.1103/PhysRevC.108.L051604
Citations: PlumX Metrics


2023JI11      Phys.Rev. C 108, L051605 (2023)

C.L.Jiang, W.F.Henning, C.R.Hoffman, B.P.Kay, N.Watwood

Unexpected character of the heavy-ion fusion excitation function and the compound channel effect

doi: 10.1103/PhysRevC.108.L051605
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2022JA08      Phys.Rev. C 105, L042802 (2022)

H.Jayatissa, M.L.Avila, K.E.Rehm, R.Talwar, P.Mohr, K.Auranen, J.Chen, D.A.Gorelov, C.R.Hoffman, C.L.Jiang, B.P.Kay, S.A.Kuvin, D.Santiago-Gonzalez

First direct measurement of the 13N(α, p)16O reaction relevant for core-collapse supernovae nucleosynthesis

NUCLEAR REACTIONS 4He(13N, p), E=34.6 MeV; measured energies and yields of reaction products; deduced σ(Ε) in the range E(cm)=3.26–6.02 MeV, astrophysical S-factor. 4He(13N, p), T=0.8-10.0 GK; deduced astrophysical reaction rates. Comparison to other experimental data, TALYS calculations and data from REACLIB. MUlti-Sampling Ionization Chamber (MUSIC) detector filled with He-Kr gas mixture at ATLAS (ANL).

doi: 10.1103/PhysRevC.105.L042802
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2747.


2022JI07      Eur.Phys.J. A 58, 72 (2022)

C.L.Jiang

A modified-Wong formula for heavy-ion fusion reactions

doi: 10.1140/epja/s10050-022-00703-z
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2022JI10      Phys.Rev. C 105, 064601 (2022)

C.L.Jiang, B.P.Kay

Heavy-ion fusion cross section formula and barrier height distribution

NUCLEAR REACTIONS 96Zr(40Ca, X), 194Pt(40Ca, X), 154Sm(16O, X), 144Sm(16O, X), 192Os(40Ca, X), 209Bi(11B, X), E not given; analyzed experimental data on σ and excitation functions for several fusioning systems 16O+208Pb, 32S+89Y, 40Ca+40Ca, 40Ca+96Zr, 8Ni+60Ni, 48Ca+48Ca, 40Ca+90Zr, 11Be+209Bi, 40Ca+132Sn, 58Ni+58Ni, 12C+30Si, 24Mg+30Si, 40Ar+112Sn, 40Ar+154Sm, 64Ni+124Sn; deduced excitation function, barrier height distributions, σ(E). The reciprocal of a fusion representation method based on a double integration of a parametrized barrier distribution. Applied three-Gaussian (3G) and a four-Gaussian (4G) description of barrier distribution. Claimed the existence of narrow barrier peak at energies higher than the Coulomb barrier for most fusion systems. Comparison to experimental data.

doi: 10.1103/PhysRevC.105.064601
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2022MO25      J.Phys.(London) G49, 095101 (2022)

G.Montagnoli, A.M.Stefanini, C.L.Jiang, K.Hagino, F.Niola, D.Brugnara, P.Colovic, G.Colucci, L.Corradi, R.Depalo, E.Fioretto, A.Goasduff, G.Pasqualato, F.Scarlassara, S.Szilner, I.Zanon

Fusion of 12C + 24Mg at extreme sub-barrier energies

NUCLEAR REACTIONS 12C(24Mg, X), E=25.5-48 MeV; measured reaction products, TOF; deduced evaporation residue σ(θ), fusion σ. Comparison with calculations. The XTU Tandem Van de Graaff accelerator at Laboratori Nazionali di Legnaro (LNL) of INFN.

doi: 10.1088/1361-6471/ac7edd
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8051.


2021JI09      Eur.Phys.J. A 57, 235 (2021), Erratum Eur.Phys.J. A 59, 84 (2023)

C.L.Jiang, B.B.Back, K.E.Rehm, K.Hagino, G.Montagnoli, A.M.Stefanini

Heavy-ion fusion reactions at extreme sub-barrier energies

NUCLEAR REACTIONS 64Ni(64Ni, X), E=82-102 MeV; 90Zr(90Zr, X), E=340-400 MeV; 89Y(58Ni, X), E=200-260 MeV; 24Mg, 30Si(12C, X), E=8-20 MeV; 10B(10B, X), 16O(16O, X), E<20 MeV; analyzed available data; deduced fusion barriers, the fusion hindrance effect with analytical forms of the barrier-height distributions or a modified version of the classic Wong formula.

doi: 10.1140/epja/s10050-021-00536-2
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2020HA03      Phys.Rev. C 101, 015804 (2020)

M.R.Hall, D.W.Bardayan, T.Baugher, A.Lepailleur, S.D.Pain, A.Ratkiewicz, S.Ahn, J.M.Allen, J.T.Anderson, A.D.Ayangeakaa, J.C.Blackmon, S.Burcher, M.P.Carpenter, S.M.Cha, K.Y.Chae, K.A.Chipps, J.A.Cizewski, M.Febbraro, O.Hall, J.Hu, C.L.Jiang, K.L.Jones, E.J.Lee, P.D.O'Malley, S.Ota, B.C.Rasco, D.Santiago-Gonzalez, D.Seweryniak, H.Sims, K.Smith, W.P.Tan, P.Thompson, C.Thornsberry, R.L.Varner, D.Walter, G.L.Wilson, S.Zhu

γ-ray spectroscopy of astrophysically important states in 39Ca

NUCLEAR REACTIONS 40Ca(3He, αγ)39Ca, E=30 MeV; Measured Eγ, Iγ, Eα, Iα, αγ-coin, reaction products using the GODDESS array (Gammasphere for γ detection and ORRUBA for particle detection) at the ATLAS-ANL facility. 39Ca; deduced levels, J, π, γ-branching ratios. 38K(p, γ)39Ca, T=0.1-0.4 GK; deduced resonance parameters, astrophysical reaction rates. Discussed impact on abundances of isotopes created at the endpoint of nova nucleosynthesis.

doi: 10.1103/PhysRevC.101.015804
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2454. Data from this article have been entered in the XUNDL database. For more information, click here.


2020HA31      Phys.Rev. C 102, 045802 (2020)

M.R.Hall, D.W.Bardayan, T.Baugher, A.Lepailleur, S.D.Pain, A.Ratkiewicz, S.Ahn, J.M.Allen, J.T.Anderson, A.D.Ayangeakaa, J.C.Blackmon, S.Burcher, M.P.Carpenter, S.M.Cha, K.Y.Chae, K.A.Chipps, J.A.Cizewski, M.Febbraro, O.Hall, J.Hu, C.L.Jiang, K.L.Jones, E.J.Lee, P.D.O'Malley, S.Ota, B.C.Rasco, D.Santiago-Gonzalez, D.Seweryniak, H.Sims, K.Smith, W.P.Tan, P.Thompson, C.Thornsberry, R.L.Varner, D.Walter, G.L.Wilson, S.Zhu

19Ne level structure for explosive nucleosynthesis

NUCLEAR REACTIONS 19F(3He, t)19Ne, E=30 MeV; measured reaction products, E(t), I(t), Eγ, Iγ, (triton)γ-, and (triton)γγ-coin using ORRUBA array with Micron QQQ5 telescopes for tritons and Gammasphere array for γ rays at ATLAS-ANL facility. 19Ne; deduced levels, J, π, γ-branching ratios. Comparison with earlier experimental results and with evaluated data. 18F(p, α)15O, E(cm)<0.9 MeV; calculated astrophysical S factors, and reaction rates at temperature of 0.06 to 0.4 GK.

doi: 10.1103/PhysRevC.102.045802
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Data from this article have been entered in the XUNDL database. For more information, click here.


2020MO18      Phys.Rev. C 101, 044608 (2020)

G.Montagnoli, A.M.Stefanini, C.L.Jiang, G.Colucci, S.Bottoni, D.Brugnara, P.Colovic, L.Corradi, E.Fioretto, F.Galtarossa, A.Goasduff, O.S.Khwairakpam, M.Heine, G.Jaworski, M.Mazzocco, T.Mijatovic, M.Siciliano, F.Scarlassara, S.Szilner, T.Van Patten, I.Zanon

Fusion of 12C + 24Mg far below the barrier: Evidence for the hindrance effect

NUCLEAR REACTIONS 12C(24Mg, X), E=26-52 MeV; measured evaporation residues (ERs), fusion σ(E) using E-ΔE and time-of-flight telescope for detection of ERs at LNL-Legnaro; deduced S factor, influence of inelastic channels on fusion, hindrance effect with energy threshold. Comparison with coupled channels calculations using the CCFULL code and Woods Saxon (WS) internuclear potential, and with systematics of energy threshold of hindrance for other medium-light systems: 12C+12C, 12C+16O, 16O+16O, 12C+30Si, 24Mg+30Si, 28Si+30Si, 16O+76Ge, and 27Al+45Sc. Discussed astrophysical significance of reactions in the carbon and oxygen burning stages of heavy stars.

doi: 10.1103/PhysRevC.101.044608
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8028.


2019HA08      Phys.Rev.Lett. 122, 052701 (2019)

M.R.Hall, D.W.Bardayan, T.Baugher, A.Lepailleur, S.D.Pain, A.Ratkiewicz, S.Ahn, J.M.Allen, J.T.Anderson, A.D.Ayangeakaa, J.C.Blackmon, S.Burcher, M.P.Carpenter, S.M.Cha, K.Y.Chae, K.A.Chipps, J.A.Cizewski, M.Febbraro, O.Hall, J.Hu, C.L.Jiang, K.L.Jones, E.J.Lee, P.D.O'Malley, S.Ota, B.C.Rasco, D.Santiago-Gonzalez, D.Seweryniak, H.Sims, K.Smith, W.P.Tan, P.Thompson, C.Thornsberry, R.L.Varner, D.Walter, G.L.Wilson, S.Zhu

Key 19Ne States Identified Affecting γ-Ray Emission from 18F in Novae

NUCLEAR REACTIONS 19F(3He, t)19Ne, E=30 MeV; measured reaction products, Eγ, Iγ; deduced γ-ray energies, J, π, S-factor, reaction rates, resonance energies. Comparison with available data.

doi: 10.1103/PhysRevLett.122.052701
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Data from this article have been entered in the XUNDL database. For more information, click here.


2019HA14      Phys.Rev. C 99, 035805 (2019)

M.R.Hall, D.W.Bardayan, T.Baugher, A.Lepailleur, S.D.Pain, A.Ratkiewicz, S.Ahn, J.M.Allen, J.T.Anderson, A.D.Ayangeakaa, J.C.Blackmon, S.Burcher, M.P.Carpenter, S.M.Cha, K.Y.Chae, K.A.Chipps, J.A.Cizewski, M.Febbraro, O.Hall, J.Hu, C.L.Jiang, K.L.Jones, E.J.Lee, P.D.O'Malley, S.Ota, B.C.Rasco, D.Santiago-Gonzalez, D.Seweryniak, H.Sims, K.Smith, W.P.Tan, P.Thompson, C.Thornsberry, R.L.Varner, D.Walter, G.L.Wilson, S.Zhu

New γ-ray transitions observed in 19Ne with implications for the 15O(α, γ)19Ne reaction rate

NUCLEAR REACTIONS 19F(3He, t), E=30 MeV; measured triton spectra, Eγ, Iγ, tγ- and γγ-coin using Gammasphere array for γ detection with the silicon detector array ORRUBA Dual Detectors for Experimental Structure Studies (GODDESS) at ATLAS-ANL facility. 19Ne; deduced levels, J, π, and γ-branching ratios for the decay of 4.14- and 4.20-MeV states. 15O(α, γ)19Ne, E≈18-180 keV; calculated fractional contribution of the corrected branching ratios for the 4.14 MeV, 7/2- and 4.20 MeV, 9/2- states in 19Ne to astrophysical reaction rate, which is of significance in breakout from the hot CNO cycle in type I x-ray bursts. Comparison with previous experimental values.

doi: 10.1103/PhysRevC.99.035805
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Data from this article have been entered in the XUNDL database. For more information, click here.


2019PA57      Nucl.Instrum.Methods Phys.Res. B438, 172 (2019)

R.C.Pardo, T.Palchan-Hazan, R.Scott, M.Paul, O.Nusair, W.Bauder, R.Vondrasek, D.Seweryniak, S.Baker, R.Talwar, P.Collon, F.G.Kondev, G.Youinou, M.Salvatores, G.Palmiotti, J.Berg, J.Giglio, M.T.Giglio, G.Imel, C.Nair, C.L.Jiang

Laser Ablation Positive-Ion AMS of Neutron Activated Actinides

NUCLEAR REACTIONS 236U, 242Pu(n, X), E not given; measured reaction products; deduced neutron transmutation rates by accelerator mass spectrometry.

doi: 10.1016/j.nimb.2018.05.004
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2018AS03      Nucl.Instrum.Methods Phys.Res. A899, 6 (2018)

B.W.Asher, S.Almaraz-Calderon, O.Nusair, K.E.Rehm, M.L.Avila, A.A.Chen, C.A.Dickerson, C.L.Jiang, B.P.Kay, R.C.Pardo, D.Santiago-Gonzalez, R.Talwar

Development of an Isomeric beam of 26Al for nuclear reaction studies

NUCLEAR REACTIONS 1H(26Mg, 26Al), E=158.5 MeV; measured reaction products, Eγ, Iγ. 26mAl; deduced σ. Comparison with available data.

doi: 10.1016/j.nima.2018.05.015
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2018JI01      Phys.Rev. C 97, 012801 (2018)

C.L.Jiang, D.Santiago-Gonzalez, S.Almaraz-Calderon, K.E.Rehm, B.B.Back, K.Auranen, M.L.Avila, A.D.Ayangeakaa, S.Bottoni, M.P.Carpenter, C.Dickerson, B.DiGiovine, J.P.Greene, C.R.Hoffman, R.V.F.Janssens, B.P.Kay, S.A.Kuvin, T.Lauritsen, R.C.Pardo, J.Sethi, D.Seweryniak, R.Talwar, C.Ugalde, S.Zhu, D.Bourgin, S.Courtin, F.Haas, M.Heine, G.Fruet, D.Montanari, D.G.Jenkins, L.Morris, A.Lefebvre-Schuhl, M.Alcorta, X.Fang, X.D.Tang, B.Bucher, C.M.Deibel, S.T.Marley

Reaction rate for carbon burning in massive stars

NUCLEAR REACTIONS 12C(12C, p)23Na, (12C, α)20Ne, E=5.5-10 MeV; measured Eγ, Iγ, (particle)γ-coin, σ(E) using Gammasphere array and an array of three annular double-sided silicon strip detectors at the ATLAS-ANL facility; deduced S factors and astrophysical reaction rates. Comparison with previous measurements, and with data from other reactions. Relevance to carbon burning is a critical phase for nucleosynthesis in massive stars.

doi: 10.1103/PhysRevC.97.012801
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2288.


2018JI11      Eur.Phys.J. A 54, 218 (2018)

C.L.Jiang, K.E.Rehm, B.B.Back, A.M.Stefanini, G.Montagnoli

Reproducing heavy-ion fusion cross sections at extreme sub-barrier energies with a simple formula

NUCLEAR REACTIONS 18O(16O, x), E=6-20 MeV; 30Si(12C, x), E=9-30 MeV;30Si(24Mg, x), E=16-32 MeV; 64Ni(28Si, x), E=44-70 MeV;64Ni(28Si, x), E=44-70 MeV;64Ni(64Ni, x), E=80-110 MeV; 124Sn(64Ni, x), E not given; 144,154Sm(16O, x), E=50-80 MeV; 197Au(11B, x), E=38-64 MeV; 208Pb(16O, x), E=64-110 MeV; calculated fusion σ(E), astrophysical S-factor vs E using simple Siwek-Wilczynski formula based on single-Gaussian distribution of fusion barrier heights; deduced parameters Rg, Vg and Wg as functions of the Coulomb barrier. Results compared to the data. Enclosed table brings results of more reaction than those named here.

doi: 10.1140/epja/i2018-12655-6
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2018MO05      Phys.Rev. C 97, 024610 (2018)

G.Montagnoli, A.M.Stefanini, C.L.Jiang, K.Hagino, F.Galtarossa, G.Colucci, S.Bottoni, C.Broggini, A.Caciolli, P.Colovic, L.Corradi, S.Courtin, R.Depalo, E.Fioretto, G.Fruet, A.Gal, A.Goasduff, M.Heine, S.P.Hu, M.Kaur, T.Mijatovic, M.Mazzocco, D.Montanari, F.Scarlassara, E.Strano, S.Szilner, G.X.Zhang

Fusion hindrance for the positive Q-value system 12C+30Si

NUCLEAR REACTIONS 12C(30Si, X), E=34-80 MeV; measured reaction products, fusion σ(E) at the XTU Tandem accelerator of INFN-LN, Legnaro. Comparison with coupled-channel calculations using Woods Saxon (WS) and Yukawa-plus-exponential (YPE) potentials.

doi: 10.1103/PhysRevC.97.024610
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0899.


2018SA13      Phys.Rev.Lett. 120, 122503 (2018)

D.Santiago-Gonzalez, K.Auranen, M.L.Avila, A.D.Ayangeakaa, B.B.Back, S.Bottoni, M.P.Carpenter, J.Chen, C.M.Deibel, A.A.Hood, C.R.Hoffman, R.V.F.Janssens, C.L.Jiang, B.P.Kay, S.A.Kuvin, A.Lauer, J.P.Schiffer, J.Sethi, R.Talwar, I.Wiedenhover, J.Winkelbauer, S.Zhu

Probing the Single-Particle Character of Rotational States in 19F Using a Short-Lived Isomeric Beam

NUCLEAR REACTIONS 2H(18F, p), E=14 MeV/nucleon; measured reaction products, Ep, Ip. 19F; deduced energy levels, J, π, relative spectroscopic factors, rotational band. Comparison with shell-model calculations.

doi: 10.1103/PhysRevLett.120.122503
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Data from this article have been entered in the XUNDL database. For more information, click here.


2018TA12      Phys.Rev. C 97, 055801 (2018)

R.Talwar, M.J.Bojazi, P.Mohr, K.Auranen, M.L.Avila, A.D.Ayangeakaa, J.Harker, C.R.Hoffman, C.L.Jiang, S.A.Kuvin, B.S.Meyer, K.E.Rehm, D.Santiago-Gonzalez, J.Sethi, C.Ugalde, J.R.Winkelbauer

Experimental study of 38Ar + α reaction cross sections relevant to the 41Ca abundance in the solar system

NUCLEAR REACTIONS 4He(38Ar, p), (38Ar, n), (38Ar, α'), E=133 MeV; measured energies and yields of reaction products, energy- and angle integrated σ(E) using multisampling ionization chamber (MUSIC) detector at the ATLAS-ANL facility. Comparison with previous experimental values, and with statistical model calculations using TALYS code. 41K(p, α)38Ar, 41Ca(n, α)38Ar, T=0.1-10.0 GK; deduced astrophysical reaction rates, and compared with statistical model calculations, and with REACLIB fits. Discussed relevance to 41Ca abundance in the solar system.

doi: 10.1103/PhysRevC.97.055801
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2302.


2017AL29      Phys.Rev.Lett. 119, 072701 (2017)

S.Almaraz-Calderon, K.E.Rehm, N.Gerken, M.L.Avila, B.P.Kay, R.Talwar, A.D.Ayangeakaa, S.Bottoni, A.A.Chen, C.M.Deibel, C.Dickerson, K.Hanselman, C.R.Hoffman, C.L.Jiang, S.A.Kuvin, O.Nusair, R.C.Pardo, D.Santiago-Gonzalez, J.Sethi, C.Ugalde

Study of the 26Alm(d, p)27Al Reaction and the Influence of the 26Al 0+ Isomer on the Destruction of 26Al in the Galaxy

NUCLEAR REACTIONS C, 2H(26Al, p), E=120 MeV; measured reaction products, Eγ, Iγ. 26Al; deduced σ(θ), reaction rates. Comparison with available data, DWBA calculations.

doi: 10.1103/PhysRevLett.119.072701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2278. Data from this article have been entered in the XUNDL database. For more information, click here.


2017AV03      Nucl.Instrum.Methods Phys.Res. A859, 63 (2017)

M.L.Avila, K.E.Rehm, S.Almaraz-Calderon, A.D.Ayangeakaa, C.Dickerson, C.R.Hoffman, C.L.Jiang, B.P.Kay, J.Lai, O.Nusair, R.C.Pardo, D.Santiago-Gonzalez, R.Talwar, C.Ugalde

Study of (α, p) and (α, n) reactions with a Multi-Sampling Ionization Chamber

NUCLEAR REACTIONS 4He(17O, n), (17O, α'), E=34.8 MeV; 4He(23Na, α), (23Na, p), E=51.5, 57.4 MeV; measured reaction products, Eα, Iα, Ep, Ip; deduced σ. Comparison with available data.

doi: 10.1016/j.nima.2017.03.060
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2016AV06      Phys.Rev. C 94, 065804 (2016)

M.L.Avila, K.E.Rehm, S.Almaraz-Calderon, A.D.Ayangeakaa, C.Dickerson, C.R.Hoffman, C.L.Jiang, B.P.Kay, J.Lai, O.Nusair, R.C.Pardo, D.Santiago-Gonzalez, R.Talwar, C.Ugalde

Experimental study of the astrophysically important 23Na(α, p)26Mg and 23Na(α, n)26Al reactions

NUCLEAR REACTIONS 4He(23Na, p), (23Na, n), E=51.5, 57.4 MeV; measured particle spectra, and cross section using multisampling ionization chamber (MUSIC) detector at ATLAS-ANL facility. Comparison with previous measurements, NACRE compilation, and with statistical-model calculations. Technique to measure simultaneously excitation functions of angle- and excitation energy-integrated cross sections of (α, p) and (α, n) reactions. Relevance to 26Al production in massive stars.

doi: 10.1103/PhysRevC.94.065804
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2249.


2016MU05      Phys.Rev. C 93, 065502 (2016)

H.P.Mumm, M.G.Huber, W.Bauder, N.Abrams, C.M.Deibel, C.R.Huffer, P.R.Huffman, K.W.Schelhammer, R.Janssens, C.L.Jiang, R.H.Scott, R.C.Pardo, K.E.Rehm, R.Vondrasek, C.M.Swank, C.M.O'Shaughnessy, M.Paul, L.Yang

High-sensitivity measurement of 3He - 4He isotopic ratios for ultracold neutron experiments

ATOMIC MASSES 3,4He; measured absolute isotopic ratio of 3He to 4He with a high sensitivity at ATLAS-ANL facility. Relevance to neutron half-life measurements using ultra-cold neutrons.

doi: 10.1103/PhysRevC.93.065502
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2016MU06      Phys.Rev. C 93, 065803 (2016)

M.Munch, M.Alcorta, H.O.U.Fynbo, M.Albers, S.Almaraz-Calderon, M.L.Avila, A.D.Ayangeakaa, B.B.Back, P.F.Bertone, P.F.F.Carnelli, M.P.Carpenter, C.J.Chiara, J.A.Clark, B.DiGiovine, J.P.Greene, J.L.Harker, C.R.Hoffman, N.J.Hubbard, C.L.Jiang, O.S.Kirsebom, T.Lauritsen, K.L.Laursen, S.T.Marley, C.Nair, O.Nusair, D.Santiago-Gonzalez, J.Sethi, D.Seweryniak, R.Talwar, C.Ugalde, S.Zhu

Independent measurement of the Hoyle state β feeding from 12B using Gammasphere

RADIOACTIVITY 12B(β-)[from 2H(11B, p), E=40 MeV from ATLAS-ANL facility]; measured Eγ, Iγ, γγ-coin, γγ(θ) for the Hoyle state using Gammasphere array. 12C; deduced first excited 2+ and 0+ levels, β branching ratio to the Hoyle state in 12C, logft, indication of higher clustering for the Hoyle state as compared to previous results. Comparison with theoretical calculations using antisymmetrized molecular dynamics (AMD), and with previous experimental results.

doi: 10.1103/PhysRevC.93.065803
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Data from this article have been entered in the XUNDL database. For more information, click here.


2016RE17      Phys.Rev. C 94, 044612 (2016)

K.E.Rehm, H.Esbensen, C.L.Jiang, B.B.Back, A.M.Stefanini, G.Montagnoli

Moments of fusion-barrier distributions

NUCLEAR REACTIONS 40,48Ca, 58,64Ni, 90,96Zr(40Ca, X), 40,48Ca, 90,96Zr(48Ca, X), 48Ca, 58,64Ni, 90,96Zr, 110Pd(32S, X), 48Ca, 64Ni, 90,96Zr, 110Pd(36S, X), 58,64Ni, 132Sn(58Ni, X), 144,148,154Sm, 186W(16O, X), 154Sm(28Si, X), 232Th(15C, X), 209Bi(6He, X), E=85-200 MeV; analyzed fusion radius parameter, moments M1, M2 and M3 of fusion barrier distributions using a new method.

doi: 10.1103/PhysRevC.94.044612
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2015JI05      Phys.Rev. C 91, 044602 (2015)

C.L.Jiang, A.M.Stefanini, H.Esbensen, K.E.Rehm, S.Almaraz-Calderon, M.L.Avila, B.B.Back, D.Bourgin, L.Corradi, S.Courtin, E.Fioretto, F.Galtarossa, A.Goasduff, F.Haas, M.M.Mazzocco, D.Montanari, G.Montagnoli, T.Mijatovic, R.Sagaidak, D.Santiago-Gonzalez, F.Scarlassara, E.E.Strano, S.Szilner

Fusion reactions of 58, 64Ni+124Sn

NUCLEAR REACTIONS 124Sn(58Ni, X), (64Ni, X), E(cm)=140-165 MeV; measured evaporation residue spectra, fusion σ(E), σ(θ). Coupled-channels calculations to study reaction mechanism. Discussed role of transfer reactions in heavy system, and S-factor maximum. Comparison with previous experimental results.

doi: 10.1103/PhysRevC.91.044602
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0774.


2015MO08      Phys.Lett. B 746, 300 (2015)

G.Montagnoli, A.M.Stefanini, H.Esbensen, L.Corradi, S.Courtin, E.Fioretto, J.Grebosz, F.Haas, H.M.Jia, C.L.Jiang, M.Mazzocco, C.Michelagnoli, T.Mijatovic, D.Montanari, C.Parascandolo, F.Scarlassara, E.Strano, S.Szilner, D.Torresi

Oscillations above the barrier in the fusion of 28Si + 28Si

NUCLEAR REACTIONS 28Si(28Si, X), E=62-78 MeV; measured fusion evaporation residues; deduced fusion σ. Comparison with coupled-channel model using the shallow M3Y + repulsion potential.

doi: 10.1016/j.physletb.2015.05.021
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0772.


2014AL06      Phys.Rev.Lett. 112, 152701 (2014)

S.Almaraz-Calderon, P.F.Bertone, M.Alcorta, M.Albers, C.M.Deibel, C.R.Hoffman, C.L.Jiang, S.T.Marley, K.E.Rehm, C.Ugalde

Direct Measurement of the 23Na(α, p)26Mg Reaction Cross Section at Energies Relevant for the Production of Galactic 26Al

NUCLEAR REACTIONS 4He(23Na, p)26Mg, E=23, 26, 28, 30 MeV; measured reaction products, Ep, Ip; deduced σ, reaction rates. Comparison with available data.

doi: 10.1103/PhysRevLett.112.152701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2107.


2014CA08      Phys.Rev.Lett. 112, 192701 (2014)

P.F.F.Carnelli, S.Almaraz-Calderon, K.E.Rehm, M.Albers, M.Alcorta, P.F.Bertone, B.Digiovine, H.Esbensen, J.O.Fernandez Niello, D.Henderson, C.L.Jiang, J.Lai, S.T.Marley, O.Nusair, T.Palchan-Hazan, R.C.Pardo, M.Paul, C.Ugalde

Measurements of Fusion Reactions of Low-Intensity Radioactive Carbon Beams on 12C and their Implications for the Understanding of X-Ray Bursts

NUCLEAR REACTIONS 12C(10C, X), (12C, X), (13C, X), (14C, X), (15C, X), E=40-50 MeV; measured fusion reaction products; deduced S-factors, σ. Time-dependent HF calculations.

doi: 10.1103/PhysRevLett.112.192701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2117.


2014JI02      Phys.Rev. C 89, 051603 (2014)

C.L.Jiang, K.E.Rehm, B.B.Back, H.Esbensen, R.V.F.Janssens, A.M.Stefanini, G.Montagnoli

Influence of heavy-ion transfer on fusion reactions

NUCLEAR REACTIONS 40,48Ca(40Ca, X), 48Ca(48Ca, X), E=45-65 MeV; 58,64Ni(28Si, X), 64Ni(30Si, X), E=42-66 MeV; 40,48Ca(32S, X), 48Ca(36S, X), E=36-56 MeV; 58,64Ni(58Ni, X), 64Ni(64Ni, X), E=85-114 MeV; 124,132Sn(40Ca, X), 132Sn(48Ca, X), E=104-138 MeV; 124,132Sn(58Ni, X), 132Sn(64Ni, X), E=145-200 MeV; analyzed fusion σ(E) using Wong formula; calculated average excitation energies of residual nuclei following neutron pickup reactions; deduced correlation between fusion enhancement and strength of total neutron-transfer cross sections.

doi: 10.1103/PhysRevC.89.051603
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2014JI04      Phys.Rev.Lett. 113, 022701 (2014)

C.L.Jiang, A.M.Stefanini, H.Esbensen, K.E.Rehm, S.Almaraz-Calderon, B.B.Back, L.Corradi, E.Fioretto, G.Montagnoli, F.Scarlassara, D.Montanari, S.Courtin, D.Bourgin, F.Haas, A.Goasduff, S.Szilner, T.Mijatovic

Fusion Hindrance for a Positive-Q-Value System 24Mg + 30Si

NUCLEAR REACTIONS 30Si(24Mg, X), E<30 MeV; measured fusion reaction products; deduced σ, S-factors.

doi: 10.1103/PhysRevLett.113.022701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0741.


2014MO33      Phys.Rev. C 90, 044608 (2014)

G.Montagnoli, A.M.Stefanini, H.Esbensen, C.L.Jiang, L.Corradi, S.Courtin, E.Fioretto, J.Grebosz, F.Haas, H.M.Jia, M.Mazzocco, C.Michelagnoli, T.Mijatovic, D.Montanari, C.Parascandolo, F.Scarlassara, E.Strano, S.Szilner, D.Torresi

Fusion of 28Si + 28, 30 Different trends at sub-barrier energies

NUCLEAR REACTIONS 28,30Si(28Si, X), E=46-86 MeV; measured particle spectra, fusion σ(E), fragment energy and angular distributions using an electrostatic beam separator at INFN-LNL's XTU Tandem accelerator facility; deduced logarithmic derivatives, S-factors, double-phonon excitations, influence of transfer channels and nuclear deformation. Comparison with coupled channel calculations using various potentials.

doi: 10.1103/PhysRevC.90.044608
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0750.


2013JI01      Phys.Rev.Lett. 110, 072701 (2013)

C.L.Jiang, B.B.Back, H.Esbensen, R.V.F.Janssens, K.E.Rehm, R.J.Charity

Origin and Consequences of 12C+12C Fusion Resonances at Deep Sub-barrier Energies

NUCLEAR REACTIONS 12C(12C, X)24Mg, 12C(13C, X)25Mg, 13C(13C, X)26Mg, 12C(16O, X)28Si, 16O(16O, X)32S, E(cm)<10 MeV; analyzed available fusion σ, S-factors; deduced resonance behavior of fusion reactions at low energies.

doi: 10.1103/PhysRevLett.110.072701
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2013MO01      Phys.Rev. C 87, 014611 (2013)

G.Montagnoli, A.M.Stefanini, H.Esbensen, C.L.Jiang, L.Corradi, S.Courtin, E.Fioretto, A.Goasduff, J.Grebosz, F.Haas, M.Mazzocco, C.Michelagnoli, T.Mijatovic, D.Montanari, C.Parascandolo, K.E.Rehm, F.Scarlassara, S.Szilner, X.D.Tang, C.A.Ur

Effects of transfer channels on near- and sub-barrier fusion of 32S + 48Ca

NUCLEAR REACTIONS 48Ca(32S, X), E=60.0-89.4 MeV; measured reaction products, σ(θ, E), fusion σ(E) at Legnaro facility; deduced logarithmic slope. 48Ca(32S, X), (36S, X), E(cm)=35-60 MeV; analyzed fusion σ(E) data, energy-weighted fusion cross sections, astrophysical S factor. Coupled channel analysis with M3Y+repulsion, double-folding potential.

doi: 10.1103/PhysRevC.87.014611
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0719.


2013ST14      Eur.Phys.J. A 49, 63 (2013)

A.M.Stefanini, G.Montagnoli, F.Scarlassara, C.L.Jiang, H.Esbensen, E.Fioretto, L.Corradi, B.B.Back, C.M.Deibel, B.Di Giovine, J.P.Greene, H.D.Henderson, S.T.Marley, M.Notani, N.Patel, K.E.Rehm, D.Sewerinyak, X.D.Tang, C.Ugalde, S.Zhu

Fusion of 60Ni + 100Mo near and below the Coulomb barrier - Multi-phonon and transfer couplings down to the hindrance region

NUCLEAR REACTIONS 100Mo(60Ni, X), (64Ni, X), E=196-262 MeV; measured particle tracks; deduced fusion σ, logarithmic excitation function slope; calculated fusion σ using CCFULL CC code.

doi: 10.1140/epja/i2013-13063-2
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2044.


2012KI16      Science 335, 1614 (2012)

N.Kinoshita, M.Paul, Y.Kashiv, P.Collon, C.M.Deibel, B.DiGiovine, J.P.Greene, D.J.Henderson, C.L.Jiang, S.T.Marley, T.Nakanishi, R.C.Pardo, K.E.Rehm, D.Robertson, R.Scott, C.Schmitt, X.D.Tang, R.Vondrasek, A.Yokoyama

A Shorter 146Sm Half-Life Measured and Implications for 146Sm-142Nd Chronology in the Solar System

RADIOACTIVITY 146Sm(α); measured decay products, Eα, Iα; deduced T1/2 and its uncertainty and 146Sm/144Sm ratio. 146Sm - 142Nd clock, comparison with available data.

doi: 10.1126/science.1215510
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2012MO05      Phys.Rev. C 85, 024607 (2012)

G.Montagnoli, A.M.Stefanini, C.L.Jiang, H.Esbensen, L.Corradi, S.Courtin, E.Fioretto, A.Goasduff, F.Haas, A.F.Kifle, C.Michelagnoli, D.Montanari, T.Mijatovic, K.E.Rehm, R.Silvestri, PushpendraP.Singh, F.Scarlassara, S.Szilner, X.D.Tang, C.A.Ur

Fusion of 40Ca+40Ca and other Ca+Ca systems near and below the barrier

NUCLEAR REACTIONS 40Ca(40Ca, X), E=98-130 MeV; measured evaporation residue spectra, σ(E); deduced barrier distribution, astrophysical S factor. 48Ca(48Ca, X), E(cm)=45-70 MeV; analyzed fusion σ(E), barrier distributions. Comparison with previous experimental data and with coupled-channel calculations based on Woods-Saxon (WS), M3Y+repulsion potentials.

doi: 10.1103/PhysRevC.85.024607
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0758.


2012NO01      Phys.Rev. C 85, 014607 (2012)

M.Notani, H.Esbensen, X.Fang, B.Bucher, P.Davies, C.L.Jiang, L.Lamm, C.J.Lin, C.Ma, E.Martin, K.E.Rehm, W.P.Tan, S.Thomas, X.D.Tang, E.Brown

Correlation between the 12C+12C, 12C+13C, and 13C+13C fusion cross sections

NUCLEAR REACTIONS 12C(13C, p)24Na, 13C(13C, np)24Na, E(cm)=2.6-4.8 MeV; measured Eγ, Iγ, βγ-coin from 24Na decay; deduced thick target yield by activation method, GEANT4 simulation, fusion cross section, S factors. 12C(12C, X), (13C, X), 13C(13C, X), E(cm)=2.5-6.5 MeV; analyzed fusion cross sections, fusion barrier parameters, spectroscopic factors by fitting with Wong formula. Comparison of experimental data with two coupled-channels calculations using ingoing wave boundary condition (IWBC).

doi: 10.1103/PhysRevC.85.014607
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1785.


2012TA13      J.Phys.:Conf.Ser. 337, 012016 (2012)

X.D.Tang, X.Fang, B.Bucher, H.Esbensen, C.L.Jiang, K.E.Rehm, C.J.Lin

Upper Limit on the molecular resonance strengths in the 12C+ 12C fusion reaction

NUCLEAR REACTIONS 12,13C(12C, X), (13C, X), E(cm)=2-6.5 MeV; analyzed published data on fusion reaction S-factor; deduced average S-factor, resonances, upper limit for molecular resonance strengths, empirical relationship using CRC-AW and EWS (equivalent square well).

doi: 10.1088/1742-6596/337/1/012016
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2012TA24      J.Phys.:Conf.Ser. 381, 012120 (2012)

X.D.Tang, H.Esbensen, X.Fang, B.Bucher, C.L.Jiang, K.E.Rehm, C.J.Lin, E.Brown

Does the 12C+12C fusion reaction trigger superburst?

NUCLEAR REACTIONS 12C(12C, X), (13C, X), E(cm)≈2.0-6.5 MeV;13C(13C, X), E(cm)≈2.9-6.5 MeV; calculated fusion reaction rate, modified S-factor using CC with IWBC (incoming wave boundary condition) and different interactions. Discussed role of possible resonance near E(cm)≈1.5 MeV.

doi: 10.1088/1742-6596/381/1/012120
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1785.


2011AL09      Phys.Rev.Lett. 106, 172701 (2011)

M.Alcorta, K.E.Rehm, B.B.Back, S.Bedoor, P.F.Bertone, C.M.Deibel, B.DiGiovine, H.Esbensen, J.P.Greene, C.R.Hoffmann, C.L.Jiang, J.C.Lighthall, S.T.Marley, R.C.Pardo, M.Paul, A.M.Rogers, C.Ugalde, A.H.Wuosmaa

Fusion Reactions with the One-Neutron Halo Nucleus 15C

NUCLEAR REACTIONS 232Th(13C, X), (14C, X), (15C, X), E(cm)=50-70 MeV; measured fusion fission fragments; deduced yields, σ, 15C+232Th cross section enhancement. Comparison with experimental data, couple-channel calculations.

doi: 10.1103/PhysRevLett.106.172701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1831.


2011DE28      Phys.Rev. C 84, 045802 (2011)

C.M.Deibel, K.E.Rehm, J.M.Figueira, J.P.Greene, C.L.Jiang, B.P.Kay, H.Y.Lee, J.C.Lighthall, S.T.Marley, R.C.Pardo, N.Patel, M.Paul, C.Ugalde, A.Woodard, A.H.Wuosmaa, G.Zinkann

First measurement of the 33Cl(p, α)30S reaction

NUCLEAR REACTIONS 1H(33Cl, α)30S, [33Cl secondary beam from 2H(32S, 33Cl), E=320 MeV primary reaction], E=208.1, 229.1, 250.6 MeV; measured Eα, Iα, particle spectra, (30S)α-coin; deduced cross sections. Enge split-pole magnetic spectrograph. Comparison of measured σ with NON-SMOKER code calculations.

doi: 10.1103/PhysRevC.84.045802
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1869.


2011ES08      Phys.Rev. C 84, 064613 (2011)

H.Esbensen, X.Tang, C.L.Jiang

Effects of mutual excitations in the fusion of carbon isotopes

NUCLEAR REACTIONS 13C(13C, X), E(cm)=0-18 MeV; 13C(12C, X), E(cm)=2-7 MeV; 12C(12C, X), E(cm)=1-9 MeV; calculated fusion cross section, S factors. Coupled-channels calculations based on the M3Y+repulsion, double-folding potential. Comparison with experimental data.

doi: 10.1103/PhysRevC.84.064613
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2011JI14      J.Phys.:Conf.Ser. 312, 042011 (2011)

C.L.Jiang, B.B.Back, H.Esbensen, R.V.F.Janssens, K.E.Rehm, X.D.Tang

Do we understand heavy-ion fusion reactions of importance in stellar evolution?

NUCLEAR REACTIONS 10B(10B, X), E≈0.9-3.5 MeV;16O(16O, X), E≈5.5-11.5 MeV;30Si(28Si, X), E≈23-30 MeV;48Ca(36S, X), E≈36-48 MeV;48Ca(40Ca, X), E≈46-56 MeV;48Ca(48Ca, X), E≈46-56 MeV;45Sc(27Al, X), E≈31=39 MeV;64Ni(28Si, X), E≈43-52 MeV;64Ni(64Ni, X), E≈84-100 MeV;92Zr(90Zr, X), E≈165-177 MeV; re-analyzed S-factors in fusion reactions; calculated S-factors, fusion hinderance effect.

doi: 10.1088/1742-6596/312/4/042011
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2011MA51      Phys.Rev. C 84, 044332 (2011)

P.Marley, D.G.Jenkins, P.J.Davies, A.P.Robinson, R.Wadsworth, C.J.Lister, M.P.Carpenter, R.V.F.Janssens, C.L.Jiang, T.L.Khoo, T.Lauritsen, D.Seweryniak, S.Zhu, S.Courtin, F.Haas, D.Lebhertz, M.Bouhelal, J.C.Lighthall, A.H.Wuosmaa, D.O'Donnell

High-resolution spectroscopy of decay pathways in the 12C(12C, γ) reaction

NUCLEAR REACTIONS 12C(12C, γ)24Mg, E=16 MeV; measured Eγ, Iγ, (particle)γ-, γγ-coin using Gammasphere array and Fragment mass analyzer coupled to PGAC system. 24Mg; deduced levels, J, π, bands, configuration, resonances. Particle-hole structure interpreted by PSDPF shell-model calculations.

doi: 10.1103/PhysRevC.84.044332
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Data from this article have been entered in the XUNDL database. For more information, click here.


2011YA26      Nucl.Instrum.Methods Phys.Res. B 269, 425 (2011)

H.Yan, D.V.Baxter, C.Y.Jiang, H.Kaiser, Y.C.Shin, W.M.Snow, X.Tong

A measurement of the change of the energy dependence of the total cross-section of phase II solid methane from confinement in aerogel glass

NUCLEAR REACTIONS H(n, x), E=3.096E-4-0.1686 eV; measured products. Data were imported from EXFOR entry 14289.

doi: 10.1016/j.nimb.2010.12.035
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14289.


2010ES07      Phys.Rev. C 82, 054621 (2010)

H.Esbensen, C.L.Jiang, A.M.Stefanini

Hindrance in the fusion of 48Ca+48Ca

NUCLEAR REACTIONS 48Ca(48Ca, X), E(cm)=45-60 MeV; analyzed fusion σ, rms radii, and S factors using coupled-channel (CC) method with Woods-Saxon and M3Y+repulsion potentials.

doi: 10.1103/PhysRevC.82.054621
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2010JI03      Phys.Rev. C 81, 024611 (2010)

C.L.Jiang, K.E.Rehm, H.Esbensen, B.B.Back, R.V.F.Janssens, P.Collon, C.M.Deibel, B.DiGiovine, J.M.Figueira, J.P.Greene, D.J.Henderson, H.Y.Lee, M.Notani, S.T.Marley, R.C.Pardo, N.Patel, D.Seweryniak, X.D.Tang, C.Ugalde, S.Zhu

Fusion hindrance for 27Al+45Sc and other systems with a positive Q value

NUCLEAR REACTIONS 45Sc(27Al, X), E=51-82 MeV; measured fragment spectra, σ, astrophysical S-factor. Comparison with coupled-channels calculations. 14N(14N, X), E=4-11 MeV; 30Si(28Si, X), E=25-31 MeV; 45Sc(27Al, X), E=32-39 MeV; 64Ni(28Si, X), E=44-51 MeV; 40Ca(40Ca, X), E=49-57 MeV; 48Ca(48Ca, X), E=46-56 MeV; 48Ca(36S, X), E=37-48 MeV; comparison of measured cross sections and astrophysical S-factors with coupled-channel calculations.

doi: 10.1103/PhysRevC.81.024611
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1781.


2010JI13      Nucl.Phys. A834, 615c (2010)

C.L.Jiang

Survey of heavy-ion fusion hindrance and its implication on astrophysics

NUCLEAR REACTIONS 64Ni(64Ni, X), E=86-100 MeV; analyzed σ, S-factor; compiled, analyzed S-factor systematics.

doi: 10.1016/j.nuclphysa.2010.01.106
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2010JI14      Phys.Rev. C 82, 041601 (2010)

C.L.Jiang, A.M.Stefanini, H.Esbensen, K.E.Rehm, L.Corradi, E.Fioretto, P.Mason, G.Montagnoli, F.Scarlassara, R.Silvestri, P.P.Singh, S.Szilner, X.D.Tang, C.A.Ur

Fusion hindrance for Ca+Ca systems: Influence of neutron excess

NUCLEAR REACTIONS 48Ca(40Ca, X), E=89.2, 107.7 MeV; measured particle spectra, σ(E, θ); deduced S factors. Comparisons of experimental σ(E) for 40Ca+40Ca, 40Ca+48Ca, 48Ca+48Ca, 40Ca+90Zr, 40Ca+96Zr and 48Ca+96Zr systems with coupled-channel calculations.

doi: 10.1103/PhysRevC.82.041601
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0759.


2010KE07      Nucl.Phys. A834, 816c (2010)

C.Keller, D.Alton, X.Bai, D.Durben, J.Heise, H.Hong, S.Howard, C.Jiang, K.Keeter, R.McTaggart, D.Medlin, D.Mei, A.Petukhov, J.Rauber, B.Roggenthen, J.Spaans, Y.Sun, B.Szczerbinska, K.Thomas, M.Zehfus, C.Zhang

CUBED: South Dakota 2010 Research Center For Dusel Experiments

doi: 10.1016/j.nuclphysa.2010.01.155
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2010LE02      Phys.Rev. C 81, 015802 (2010)

H.Y.Lee, J.P.Greene, C.L.Jiang, R.C.Pardo, K.E.Rehm, J.P.Schiffer, A.H.Wuosmaa, N.J.Goodman, J.C.Lighthall, S.T.Marley, K.Otsuki, N.Patel, M.Beard, M.Notani, X.D.Tang

Experimental study of the 11, 12B(n, γ) reactions and their influence on r-process nucleosynthesis of light elements

NUCLEAR REACTIONS 2H(11B, p), E=81 MeV; 2H(12B, p), E=75 MeV; measured proton and 11,12,13B particle spectra, σ(θ). 12,13B; deduced levels, J, π, l-transfers. Comparison with DWBA calculations. 11B, 12B(n, γ); deduced reaction rates of astrophysical relevance, and abundances of 11B and 12B in r process.

doi: 10.1103/PhysRevC.81.015802
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14262. Data from this article have been entered in the XUNDL database. For more information, click here.


2010NO04      Nucl.Phys. A834, 192c (2010)

M.Notani, P.Davies, B.Bucher, X.Fang, L.Lamm, C.Ma, E.Martin, W.Tan, X.D.Tang, S.Thomas, C.L.Jiang

Study of the hindrance effect in sub-barrier fusion reactions

NUCLEAR REACTIONS 12C(13C, p), E(cm)=2.6-5.0 MeV; measured Eβ, Iβ, Eγ, Iγ, βγ-coin, thick target yield; deduced σ, astrophysical S-factor. Comparison with data and calculations.

doi: 10.1016/j.nuclphysa.2009.12.037
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1785.


2010TA05      Phys.Rev. C 81, 045809 (2010)

X.D.Tang, K.E.Rehm, I.Ahmad, C.R.Brune, A.Champagne, J.P.Greene, A.Hecht, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, D.Kahl, E.F.Moore, M.Notani, R.C.Pardo, N.Patel, M.Paul, G.Savard, J.P.Schiffer, R.E.Segel, S.Sinha, A.H.Wuosmaa

Determination of the E1 component of the low-energy 12C(α, γ)16O cross section

RADIOACTIVITY 16N(β-α); measured Eα, Iα, α12C-coin, half-life; deduced E1 component of the S factor for 12C(α, γ)16O reaction using a set of twin ionization chambers. R-matrix analysis. Comparison with previous studies.

NUCLEAR REACTIONS 2H(15N, p)15N/16N/16O/20Ne, E=82 MeV; measured fragment yields.

doi: 10.1103/PhysRevC.81.045809
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1799.


2009ES01      Phys.Rev. C 79, 064619 (2009)

H.Esbensen, C.L.Jiang

Indications of a shallow potential in 48Ca+96Zr fusion reactions

NUCLEAR REACTIONS 96Zr(48Ca, X), E=86-115 MeV; 90,94,96Zr(40Ca, X), 90Zr(48Ca, X), E=78-96 MeV; analyzed fusion σ, barrier distributions and astrophysical S factors using coupled-channels calculations. Comparison with experimental data.

doi: 10.1103/PhysRevC.79.064619
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2009JI04      Phys.Rev. C 79, 044601 (2009)

C.L.Jiang, K.E.Rehm, B.B.Back, R.V.F.Janssens

Survey of heavy-ion fusion hindrance for lighter systems

NUCLEAR REACTIONS 18O(16O, X), E(cm)=6-12 MeV; 14N(14N, X), E(cm)=4-11 MeV; analyzed σ and logarithmic derivative L(E). 10B(10B, X), E not given; 12C, 14N(11B, X), E not given; 12,13C, 14N, 16O, 20Ne(12C, X), E not given; 16O(13C, X), E not given; 14N, 16O(14N, X), E not given; 16,18O, 76Ge(16O, X), E not given; 30Si(28Si, X); analyzed σ and heavy-ion reaction parameters. 16O(16O, X), E not given; analyzed astrophysical S-factors.

doi: 10.1103/PhysRevC.79.044601
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2009JI08      Phys.Rev. C 80, 044613 (2009)

C.L.Jiang, K.E.Rehm, D.Ackermann, I.Ahmad, J.P.Greene, B.Harss, D.Henderson, W.F.Henning, R.V.F.Janssens, J.Nolen, R.C.Pardo, P.Reiter, J.P.Schiffer, D.Seweryniak, A.Sonzogni, J.Uusitalo, I.Wiedenhover, A.H.Wuosmaa, F.Brumwell, G.McMichael, M.Paul, R.E.Segel

Experimental study of the 56Ni(3He, d)57Cu reaction in inverse kinematics

NUCLEAR REACTIONS 3He(56Ni, d), E=250 MeV; measured Ed, Id, σ, σ(θ). 57Cu; deduced levels, J, π, spectroscopic factors. DWBA analysis. Discussed implications for 56Ni(p, γ)57Cu reaction of astrophysical interest.

doi: 10.1103/PhysRevC.80.044613
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2009QI04      Phys.Rev. C 79, 064319 (2009)

J.Qian, A.Heinz, T.L.Khoo, R.V.F.Janssens, D.Peterson, D.Seweryniak, I.Ahmad, M.Asai, B.B.Back, M.P.Carpenter, A.B.Garnsworthy, J.P.Greene, A.A.Hecht, C.L.Jiang, F.G.Kondev, T.Lauritsen, C.J.Lister, A.Robinson, G.Savard, R.Scott, R.Vondrasek, X.Wang, R.Winkler, S.Zhu

Spectroscopy of 257Rf

NUCLEAR REACTIONS 208Pb(50Ti, n), E=233 MeV; measured Eα, Iα, ce, fission events correlated with evaporation residues, Eγ, Iγ, (ce)α-, (ce)γ-coin, isomer half-lives, (evaporation residues)-ce-α-α correlations. 257Rf; deduced levels, J, π, configurations. 257Rf; calculated excitation energies of 1-qp states and rotational bands built on 1-qp and 3-qp bandheads. A=245-257, odd-A Pu, Cm, Cf, Fm, No, Rf; Nilsson orbital systematics.

RADIOACTIVITY 257Rf(α)(EC)(SF), 257mRf(α)(EC), 257Lr(α), 256Rf(SF), 253No(α)(EC); measured Eα, Iα, Eγ, fission events, (ce)α-coin, half-lives, and fission branching ratios. 253No; deduced levels, J, π, α hindrance factors, and configurations.

doi: 10.1103/PhysRevC.79.064319
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2009WA25      Chin.Phys.C 33, 181 (2009)

Y.-B.Wang, X.Qin, B.-X.Wang, W.-P.Liu, Z.-H.Li, X.-X.Bai, G.Lian, B.Guo, S.Zeng, J.Su, Y.-J.Li, C.Jiang

Simulation and analysis of 13N+p elastic resonance scattering

NUCLEAR REACTIONS 1H(13N, p), E=47.8 MeV; measured reaction products; 14O; deduced σ, resonance parameters, J, π. Monte-Carlo simulations.

doi: 10.1088/1674-1137/33/3/004
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2008JI04      Phys.Rev. C 78, 017601 (2008)

C.L.Jiang, B.B.Back, H.Esbensen, J.P.Greene, R.V.F.Janssens, D.J.Henderson, H.Y.Lee, C.J.Lister, M.Notani, R.C.Pardo, N.Patel, K.E.Rehm, D.Seweryniak, B.Shumard, X.Wang, S.Zhu, S.Misicu, P.Collon, X.D.Tang

Fusion hindrance for a positive Q-value system

NUCLEAR REACTIONS 30Si(28Si, X), E=48.5-71 MeV; measured excitation functions, fusion σ. 12C(12C, X); systematics of Q-values. Comparisons with model calculations.

doi: 10.1103/PhysRevC.78.017601
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2008KI05      J.Phys.(London) G35, 014033 (2008)

N.Kinoshita, T.Hashimoto, T.Nakanishi, A.Yokoyama, H.Amakawa, T.Mitsugashira, T.Ohtsuki, N.Takahashi, I.Ahmad, J.P.Greene, D.J.Henderson, C.L.Jiang, M.Notani, R.C.Pardo, N.Patel, K.E.Rehm, R.Scott, R.Vondrasek, L.Jisonna, P.Collon, D.Robertson, C.Schmitt, X.D.Tang, Y.Kashiv, H.Nassar, M.Paul

Ultra-sensitive detection of p-process nuclide 146Sm produced by (γ, n), (p, 2nε) and (n, 2n) reactions

doi: 10.1088/0954-3899/35/1/014033
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2008LI02      Chin.Phys.Lett. 25, 70 (2008)

G.Lian, J.Su, B-X.Wang, C.Jiang, X.-X.Bai, S.Zeng, Y.-N.Zheng, S.-Y.Zhu, L.-H.Zhu, W.-P.Liu, Z.-H.Li, Y.-B.Wang, B.Guo, Y.-J.Li, X.Qin

Enhancement of β+-Decay Rate of 22Na in Metal Pd at Low Temperature

RADIOACTIVITY 22Na(β+); measured Eγ, Iγ. Deduced evidence for temperature dependence of half life for decays in metallic environment.

doi: 10.1088/0256-307X/25/1/020
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2008LI03      Chin.Phys.Lett. 25, 455 (2008)

Y.-J.Li, Z.-H.Li, B.Guo, Y.-B.Wang, X.-X.Bai, J.Su, G.Lian, S.Zeng, B.-X.Wang, X.Qin, C.Jiang, W.-P.Liu, W.-J.Zhao

Measurement of Angular Distribution for the 8Li(p, d)7Li Reaction

NUCLEAR REACTIONS 1H(8Li, 7Li), E=39.8 MeV; measured particle energies and yields. 8Li(p, d), E(cm)=4.0 MeV; deduced cross sections and backward anglular distributions.

doi: 10.1088/0256-307X/25/2/028
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2008SC03      Phys.Rev.Lett. 100, 112501 (2008)

J.P.Schiffer, S.J.Freeman, J.A.Clark, C.Deibel, C.R.Fitzpatrick, S.Gros, A.Heinz, D.Hirata, C.L.Jiang, B.P.Kay, A.Parikh, P.D.Parker, K.E.Rehm, A.C.C.Villari, V.Werner, C.Wrede

Nuclear Structure Relevant to Neutrinoless Double β Decay: 76Ge and 76Se

NUCLEAR REACTIONS 74,76Ge, 76,78Se(d, p), E=15 MeV; 76Ge, 76Se(p, d), E=23 MeV; 74,76Ge, 76,78Se(3He, α), E=26 MeV; 74,76Ge, 76,78Se(α, 3He), E=40 MeV; measured reaction products energy spectra, cross sections. Deduced summed spectroscopic strengths, neutron vacancies.

doi: 10.1103/PhysRevLett.100.112501
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2008WA09      Phys.Rev. C 77, 044304 (2008)

Y.B.Wang, B.X.Wang, X.Qin, X.X.Bai, B.Guo, C.Jiang, Y.J.Li, Z.H.Li, G.Lian, J.Su, S.Zeng, W.P.Liu

13N + p elastic resonance scattering via a thick-target method

NUCLEAR REACTIONS 2H(12C, 13N), E=72 MeV; measured excitation function. 1H(13N, 13N), E=47.8 MeV; measured proton energy, σ(θ). 13N, 14O; deduced levels, J, π, resonance parameters.

doi: 10.1103/PhysRevC.77.044304
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2008WU05      Phys.Rev. C 78, 041302 (2008)

A.H.Wuosmaa, J.P.Schiffer, K.E.Rehm, J.P.Greene, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, J.C.Lighthall, S.T.Marley, E.F.Moore, R.C.Pardo, N.Patel, M.Paul, D.Peterson, S.C.Pieper, G.Savard, R.E.Segel, R.H.Siemssen, X.D.Tang, R.B.Wiringa

Structure of 7He by proton removal from 8Li with the (d, 3He) reaction

NUCLEAR REACTIONS 2H(8Li, 3He), E=76 MeV; 2H(7Li, t), (7Li, 3He), E=81 MeV; measured charged particle spectra, (particle)(particle)-coin, angular distributions, σ, σ(θ), spectroscopic factors. 7He; deduced levels, J, π. Comparisons with data from 2H(6He, p) experiment. Comparisons with nuclear structure models and variational quantum Monte Carlo calculations.

doi: 10.1103/PhysRevC.78.041302
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2007FR10      Phys.Rev. C 75, 051301 (2007)

S.J.Freeman, J.P.Schiffer, A.C.C.Villari, J.A.Clark, C.Deibel, S.Gros, A.Heinz, D.Hirata, C.L.Jiang, B.P.Kay, A.Parikh, P.D.Parker, J.Qian, K.E.Rehm, X.D.Tang, V.Werner, C.Wrede

Pair correlations in nuclei involved in neutrinoless double Β decay: 76Ge and 76Se

NUCLEAR REACTIONS 74,76Ge, 76,78Se(p, t), E=23 MeV; measured yields, cross sections and angular distributions. Compared results to DWBA calculations.

doi: 10.1103/PhysRevC.75.051301
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2007GA43      Phys.Rev. C 76, 035802 (2007)

L.R.Gasques, E.F.Brown, A.Chieffi, C.L.Jiang, M.Limongi, C.Rolfs, M.Wiescher, D.G.Yakovlev

Implications of low-energy fusion hindrance on stellar burning and nucleosynthesis

NUCLEAR REACTIONS 12C, 16O(16O, X), E < 12 MeV; 16O(16O, X), E < 15 MeV; analyzed fusion cross sections. Deduced S-factors at astrophysical energies.

doi: 10.1103/PhysRevC.76.035802
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2007HA49      J.Nucl.Radiochem.Sci. 8, 109 (2007)

T.Hashimoto, T.Nakanishi, A.Yokoyama, H.Amakawa, T.Mitsugashira, T.Ohtsuki, N.Takahashi, I.Ahmad, J.P.Greene, D.J.Henderson, C.L.Jiang, M.Notani, R.C.Pardo, N.Patel, K.E.Rehm, R.Scott, R.Vondrasek, L.Jisonna, P.Collon, D.Robertson, C.Schmitt, X.D.Tang, Y.Kashiv, M.Paul

Technological Development for Half-life Measurement of 146Sm Nuclide

NUCLEAR REACTIONS 147Sm(γ, n), E < 50 MeV; 147Sm(n, 2n), E=6-10 MeV; 147Sm(p, 2n), E=21 MeV; measured Eα, Iα.


2007JI01      Phys.Rev. C 75, 015803 (2007)

C.L.Jiang, K.E.Rehm, B.B.Back, R.V.F.Janssens

Expectations for 12C and 16O induced fusion cross sections at energies of astrophysical interest

NUCLEAR REACTIONS 12C, 16O(12C, X), 16O(16O, X), E=5-12 MeV; analyzed fusion σ, astrophysical S-factors; calculated astrophysical reaction rates.

doi: 10.1103/PhysRevC.75.015803
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2007JI10      Phys.Rev. C 75, 057604 (2007)

C.L.Jiang, B.B.Back, R.V.F.Janssens, K.E.Rehm

Radius of curvature of the S factor maximum in sub-barrier fusion hindrance

NUCLEAR REACTIONS 13C(12C, X), E=3-7 MeV; calculated the radius of curvature of the S-factor maximum to investigate the onset of sub-barrier fusion hindrance.

doi: 10.1103/PhysRevC.75.057604
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2007NA27      Phys.Rev. C 76, 054604 (2007)

R.S.Naik, W.Loveland, P.H.Sprunger, A.M.Vinodkumar, D.Peterson, C.L.Jiang, S.Zhu, X.Tang, E.F.Moore, P.Chowdhury

Measurement of the fusion probability PCN for the reaction of 50Ti with 208Pb

NUCLEAR REACTIONS 208Pb(50Ti, X), E(cm)=183.7, 186.2, 190.2, 194.2, 202.3 MeV; measured fission fragments, cross sections, angular distributions; deduced fusion probabilities and survival probabilities for compound nuclei Z=102-113.

doi: 10.1103/PhysRevC.76.054604
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2007TA34      Phys.Rev.Lett. 99, 052502 (2007)

X.D.Tang, K.E.Rehm, I.Ahmad, C.R.Brune, A.Champagne, J.P.Greene, A.A.Hecht, D.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, D.Kahl, E.F.Moore, M.Notani, R.C.Pardo, N.Patel, M.Paul, G.Savard, J.P.Schiffer, R.E.Segel, S.Sinha, B.Shumard, A.H.Wuosmaa

New Determination of the Astrophysical S Factor SE1 of the 12C(α, γ)16O Reaction

RADIOACTIVITY 16N(β-), (β-α); measured Eα, Iα, 12Cα-coin. 12C(α, γ); deduced astrophysical S-factor.

doi: 10.1103/PhysRevLett.99.052502
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2007WU05      Eur.Phys.J. Special Topics 150, 79 (2007)

A.H.Wuosmaa, K.E.Rehm, J.P.Greene, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, J.C.Lighthall, S.T.Marley, E.F.Moore, R.C.Pardo, N.Patel, M.Paul, D.Peterson, S.C.Pieper, G.Savard, J.P.Schiffer, R.E.Segal, R.H.Siemssen, S.Sinha, X.Tang, R.B.Wiringa

Nucleon transfer reactions with exotic beams at ATLAS

doi: 10.1140/epjst/e2007-00271-y
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2006JI01      Phys.Rev. C 73, 014613 (2006)

C.L.Jiang, B.B.Back, H.Esbensen, R.V.F.Janssens, K.E.Rehm

Systematics of heavy-ion fusion hindrance at extreme sub-barrier energies

NUCLEAR REACTIONS 64Ni(58Ni, X), (64Ni, X), E ≈ 85-105 MeV; 10B(10B, X), 12C(11B, X), (13C, X), 16O(12C, X), (16O, X), E ≈ 2-17 MeV; 64Ni(28Si, X), 48Ca(48Ca, X), E ≈ 45-60 MeV; 89Y(60Ni, X), 92Zr(90Zr, X), E ≈ 120-180 MeV; analyzed fusion σ, sub-barrier hindrance.

doi: 10.1103/PhysRevC.73.014613
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2006JI06      Phys.Lett. B 640, 18 (2006)

C.L.Jiang, B.B.Back, H.Esbensen, R.V.F.Janssens, S.Misicu, K.E.Rehm, P.Collon, C.N.Davids, J.Greene, D.J.Henderson, L.Jisonna, S.Kurtz, C.J.Lister, M.Notani, M.Paul, R.Pardo, D.Peterson, D.Seweryniak, B.Shumard, X.D.Tang, I.Tanihata, X.Wang, S.Zhu

First evidence of fusion hindrance for a small Q-value system

NUCLEAR REACTIONS 64Ni(28Si, X), E=63-95 MeV; measured fusion-evaporation σ, fusion excitation function; deduced hindrance at sub-barrier energies. Coupled-channels analysis.

doi: 10.1016/j.physletb.2006.07.007
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2006NA02      Phys.Rev.Lett. 96, 041102 (2006)

H.Nassar, M.Paul, I.Ahmad, Y.Ben-Dov, J.Caggiano, S.Ghelberg, S.Goriely, J.P.Greene, M.Hass, A.Heger, A.Heinz, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, Y.Kashiv, B.S.Nara Singh, A.Ofan, R.C.Pardo, T.Pennington, K.E.Rehm, G.Savard, R.Scott, R.Vondrasek

40Ca(α, γ)44Ti Reaction in the Energy Regime of Supernova Nucleosynthesis

NUCLEAR REACTIONS 4He(40Ca, γ), E(cm) ≈ 0.6-1.2 MeV/nucleon; measured yield. 40Ca(α, γ), E=low; deduced astrophysical reaction rate. Accelerator mass spectrometry.

doi: 10.1103/PhysRevLett.96.041102
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2006PE17      Phys.Rev. C 74, 014316 (2006)

D.Peterson, B.B.Back, R.V.F.Janssens, T.L.Khoo, C.J.Lister, D.Seweryniak, I.Ahmad, M.P.Carpenter, C.N.Davids, A.A.Hecht, C.L.Jiang, T.Lauritsen, X.Wang, S.Zhu, F.G.Kondev, A.Heinz, J.Qian, R.Winkler, P.Chowdhury, S.K.Tandel, U.S.Tandel

Decay modes of 250No

RADIOACTIVITY 250No(SF) [from 204Pb(48Ca, 2n)]; measured T1/2 for ground and isomeric state decay; deduced upper limit for α-decay branching ratio. 219,220Th(α) [from 176Yb(48Ca, xn)]; measured T1/2.

doi: 10.1103/PhysRevC.74.014316
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2005JI02      Phys.Rev. C 71, 044613 (2005)

C.L.Jiang, K.E.Rehm, H.Esbensen, R.V.F.Janssens, B.B.Back, C.N.Davids, J.P.Greene, D.J.Henderson, C.J.Lister, R.C.Pardo, T.Pennington, D.Peterson, D.Seweryniak, B.Shumard, S.Sinha, X.D.Tang, I.Tanihata, S.Zhu, P.Collon, S.Kurtz, M.Paul

Hindrance of heavy-ion fusion at extreme sub-barrier energies in open-shell colliding systems

NUCLEAR REACTIONS 100Mo(64Ni, X), E=196-262 MeV; measured fusion-evaporation σ, fusion excitation function; deduced hindrance at sub-barrier energies. 58,60,64Ni, 74Ge, 90,91,94Zr, 92,100Mo, 124Sn(58Ni, X), 89Y(60Ni, X), 64Ni, 74Ge, 92,96Zr, 92,100Mo, 124Sn(64Ni, X), E(cm) ≈ 120 MeV; analyzed fusion σ, sub-barrier hindrance.

doi: 10.1103/PhysRevC.71.044613
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2005NA08      Phys.Rev.Lett. 94, 092504 (2005)

H.Nassar, M.Paul, I.Ahmad, D.Berkovits, M.Bettan, P.Collon, S.Dababneh, S.Ghelberg, J.P.Greene, A.Heger, M.Heil, D.J.Henderson, C.L.Jiang, F.Kappeler, H.Koivisto, S.O'Brien, R.C.Pardo, N.Patronis, T.Pennington, R.Plag, K.E.Rehm, R.Reifarth, R.Scott, S.Sinha, X.Tang, R.Vondrasek

Stellar (n, γ) Cross Section of 62Ni

NUCLEAR REACTIONS 62Ni(n, γ), E=spectrum; measured total σ. Fast-neutron activation, accelerator mass spectrometry. Astrophysical implications discussed.

doi: 10.1103/PhysRevLett.94.092504
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2005RO42      Eur.Phys.J. A 25, Supplement 1, 289 (2005)

M.Romoli, M.Mazzocco, E.Vardaci, M.Di Pietro, A.De Francesco, R.Bonetti, A.De Rosa, T.Glodariu, A.Guglielmetti, G.Inglima, M.La Commara, B.Martin, V.Masone, P.Parascandolo, D.Pierroutsakou, M.Sandoli, P.Scopel, C.Signorini, F.Soramel, L.Stroe, J.Greene, A.Heinz, D.Henderson, C.L.Jiang, E.F.Moore, R.C.Pardo, K.E.Rehm, A.Wuosmaa, J.F.Liang

The EXODET apparatus: Features and first experimental results

NUCLEAR REACTIONS 208Pb(17F, 17F), (17F, 16OX), E=90.4 Mev; measured σ(θ).

doi: 10.1140/epjad/i2005-06-187-8
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2005WU03      Phys.Rev.Lett. 94, 082502 (2005)

A.H.Wuosmaa, K.E.Rehm, J.P.Greene, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, E.F.Moore, R.C.Pardo, M.Paul, D.Peterson, S.C.Pieper, G.Savard, J.P.Schiffer, R.E.Segel, S.Sinha, X.Tang, R.B.Wiringa

Neutron Spectroscopic Factors in 9Li from 2H(8Li, p)9Li

NUCLEAR REACTIONS 2H(8Li, p), E ≈ 76 MeV; measured Ep, excitation energy spectra, σ(θ). 9Li deduced levels, J, π, spectroscopic factors. Comparison with model predictions.

doi: 10.1103/PhysRevLett.94.082502
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2005WU08      Phys.Rev. C 72, 061301 (2005)

A.H.Wuosmaa, K.E.Rehm, J.P.Greene, D.J.Henderson, R.V.F.Janssens, C.L.Jiang, L.Jisonna, E.F.Moore, R.C.Pardo, M.Paul, D.Peterson, Steven C.Pieper, G.Savard, J.P.Schiffer, R.E.Segel, S.Sinha, X.Tang, R.B.Wiringa

Search for excited states in 7He with the (d, p) reaction

NUCLEAR REACTIONS 2H(6He, p), E=69 MeV; 2H(7Li, p), E=81 MeV; measured particle spectra, σ(θ). 7He deduced ground-state J, π, excited state energy, width.

doi: 10.1103/PhysRevC.72.061301
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2004JI01      Phys.Rev. C 69, 014604 (2004)

C.L.Jiang, H.Esbensen, B.B.Back, R.V.F.Janssens, K.E.Rehm

Analysis of heavy-ion fusion reactions at extreme sub-barrier energies

NUCLEAR REACTIONS 89Y(60Ni, X), E=115-140 MeV; analyzed fusion σ, barrier distribution. 58Ni(58Ni, X), 89Y(60Ni, X), 89Y, 90,92Zr(90Zr, X), 144Sm, 208Pb(16O, X), 208Pb(19F, X), (50Ti, X), 64Ni(64Ni, X), E ≈ 100-300 MeV; analyzed fusion S-factors. Coupled-channels approach.

doi: 10.1103/PhysRevC.69.014604
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2004JI05      Phys.Rev.Lett. 93, 012701 (2004)

C.L.Jiang, K.E.Rehm, R.V.F.Janssens, H.Esbensen, I.Ahmad, B.B.Back, P.Collon, C.N.Davids, J.P.Greene, D.J.Henderson, G.Mukherjee, R.C.Pardo, M.Paul, T.O.Pennington, D.Seweryniak, S.Sinha, Z.Zhou

Influence of Nuclear Structure on Sub-Barrier Hindrance in Ni + Ni Fusion

NUCLEAR REACTIONS 64Ni(64Ni, X), E=171-220 MeV; measured fusion excitation function; deduced structure effects in sub-barrier hindrance. Comparison with similar reactions.

doi: 10.1103/PhysRevLett.93.012701
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2004JI07      Prog.Theor.Phys.(Kyoto), Suppl. 154, 61 (2004)

C.L.Jiang, H.Esbensen, K.E.Rehm, B.B.Back, R.V.F.Janssens, C.N.Davids, J.P.Greene, D.J.Henderson, G.Mukherjee, R.C.Pardo, T.O.Pennington, D.Seweryniak, S.Sinha, Z.Zhou, M.Paul, P.Collon, J.A.Caggiano, A.M.Heinz, I.Nishinaka

Systematics of Heavy-Ion Fusion Reactions at Extreme Sub-Barrier Energies

NUCLEAR REACTIONS 64Ni(64Ni, X), E=172-212 MeV; measured fusion excitation function; deduced barrier distribution. Fragment mass analyzer, S-factor analysis, fusion reaction systematics discussed.

doi: 10.1143/PTPS.154.61
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2004JI09      Nucl.Phys. A746, 403c (2004)

C.L.Jiang, B.B.Back, J.Nolen, K.E.Rehm, G.Savard

The influence of secondary reactions in the wedge of a magnetic separator at RIA

doi: 10.1016/j.nuclphysa.2004.09.142
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2004NA39      Nucl.Phys. A746, 613c (2004)

H.Nassar, S.Ghelberg, M.Paul, S.Dababneh, M.Heil, F.Kappeler, R.Plag, I.Ahmad, J.P.Greene, D.J.Henderson, C.L.Jiang, R.C.Pardo, T.Pennington, K.E.Rehm, R.Scott, S.Sinha, X.Tang, R.Vondrasek, H.Koivisto, D.Berkovits, M.Bettan, R.Reifarth, P.Collon, S.O'Brien, N.Patronis

Production and isobaric separation of 63Ni ions for determination of the 62Ni(n, γ)63Ni reaction cross section at stellar temperatures

NUCLEAR REACTIONS 62Ni(n, γ), E=fast; measured yields.

doi: 10.1016/j.nuclphysa.2004.09.140
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2004RE31      Nucl.Phys. A746, 354c (2004)

K.E.Rehm, C.L.Jiang, J.P.Greene, D.Henderson, R.V.F.Janssens, E.F.Moore, G.Mukherjee, R.C.Pardo, T.Pennington, J.P.Schiffer, S.Sinha, X.D.Tang, R.H.Siemssen, L.Jisonna, R.E.Segel, A.H.Wuosmaa

First studies of the 8B(α, p)11C reaction

NUCLEAR REACTIONS 1H(11C, α), E=98-110 MeV; measured σ(θ). 8B(α, p), E*=8.7-9.8 MeV; deduced excitation function, astrophysical reaction rate.

doi: 10.1016/j.nuclphysa.2004.09.052
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2004RO23      Phys.Rev. C 69, 064614 (2004)

M.Romoli, E.Vardaci, M.Di Pietro, A.De Francesco, A.De Rosa, G.Inglima, M.La Commara, B.Martin, D.Pierroutsakou, M.Sandoli, M.Mazzocco, T.Glodariu, P.Scopel, C.Signorini, R.Bonetti, A.Guglielmetti, F.Soramel, L.Stroe, J.Greene, A.Heinz, D.Henderson, C.L.Jiang, E.F.Moore, R.C.Pardo, K.E.Rehm, A.Wuosmaa, J.F.Liang

Measurements of 17F scattering by 208Pb with a new type of large solid angle detector array

NUCLEAR REACTIONS 208Pb(17F, 17F), E=90.4 MeV; measured σ(θ); 208Pb(19F, 19F), E=91 MeV; 208Pb(16O, 16O), (17O, 17O), E=78 MeV; analyzed σ(θ); deduced optical model parameters. 208Pb(17F, p16O), E=90.4 MeV; measured breakup σ. Exodet detector array.

doi: 10.1103/PhysRevC.69.064614
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1491.


2004RO43      Nucl.Phys. A746, 522c (2004)

M.Romoli, M.Mazzocco, E.Vardaci, M.Di Pietro, R.Bonetti, A.De Francesco, A.De Rosa, T.Glodariu, A.Guglielmetti, G.Inglima, M.La Commara, B.Martin, D.Pierroutsakou, M.Sandoli, P.Scopel, C.Signorini, F.Soramel, L.Stroe, J.Greene, A.Heinz, D.Henderson, C.L.Jiang, J.F.Liang, E.F.Moore, R.C.Pardo, K.E.Rehm, A.Wuosmaa

Elastic scattering of 17F on 208Pb and 17F breakup cross section at Coulomb barrier energies

NUCLEAR REACTIONS 208Pb(17F, 17F), E=90.4 MeV; measured σ(θ); deduced optical model parameters. 208Pb(17F, p16O), E=90.4 MeV; measured breakup σ.

doi: 10.1016/j.nuclphysa.2004.09.085
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2004SC16      Phys.Rev.Lett. 92, 162501 (2004); Erratum Phys.Rev.Lett. 110, 169901 (2013)

J.P.Schiffer, S.J.Freeman, J.A.Caggiano, C.Deibel, A.Heinz, C.-L.Jiang, R.Lewis, A.Parikh, P.D.Parker, K.E.Rehm, S.Sinha, J.S.Thomas

Is the Nuclear Spin-Orbit Interaction Changing with Neutron Excess?

NUCLEAR REACTIONS 112,114,116,118,120,122,124Sn(α, t), E=40 MeV; measured σ(E, θ). 113,115,117,119,121,123,125Sb levels deduced spectroscopic factors, decrease in nuclear spin-orbit interaction. Nuclides near N=82 also discussed.

doi: 10.1103/PhysRevLett.92.162501
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2004WA23      Phys.Rev.Lett. 93, 142501 (2004)

L.-B.Wang, P.Mueller, K.Bailey, G.W.F.Drake, J.P.Greene, D.Henderson, R.J.Holt, R.V.F.Janssens, C.L.Jiang, Z.-T.Lu, T.P.O'Connor, R.C.Pardo, K.E.Rehm, J.P.Schiffer, X.D.Tang

Laser Spectroscopic Determination of the 6He Nuclear Charge Radius

NUCLEAR MOMENTS 4,6He; measured isotope shift. 6He deduced charge radius. Laser spectroscopy.

doi: 10.1103/PhysRevLett.93.142501
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2004WI13      Nucl.Phys. A746, 311c (2004)

W.T.Winter, K.E.Rehm, C.L.Jiang, I.Ahmad, S.J.Freedman, J.Greene, A.Heinz, D.Henderson, R.V.F.Janssens, E.F.Moore, G.Mukherjee, R.C.Pardo, M.Paul, T.Pennington, G.Savard, J.P.Schiffer, D.Seweryniak, G.Zinkann

Determination of the 8B neutrino spectrum

RADIOACTIVITY 8B(EC); measured β-delayed Eα; deduced neutrino spectrum. 20Na(EC); measured β-delayed Eα.

doi: 10.1016/j.nuclphysa.2004.09.029
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2003MU09      Nucl.Instrum.Methods Phys.Res. B204, 536 (2003)

P.Muller, L.-B.Wang, K.Bailey, G.W.F.Drake, X.Du, J.Greene, A.M.Heinz, R.J.Holt, D.Henderson, R.V.Janssens, C.-L.Jiang, C.Law, Z.-T.Lu, I.D.Moore, T.P.O'Connor, R.C.Pardo, M.Paul, T.Pennington, K.E.Rehm, J.P.Schiffer

Towards measuring the charge radius of 6He and 8He

RADIOACTIVITY 6He(β-) [from 12C(7Li, 6He)]; measured Eβ, T1/2. Magneto-optical trap for charge radius measurement.

doi: 10.1016/S0168-583X(02)02128-6
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2003PA34      Nucl.Phys. A718, 239c (2003)

M.Paul, C.Feldstein, I.Ahmad, D.Berkovits, C.Bordeanu, J.Caggiano, S.Ghelberg, J.Goerres, J.Greene, M.Hass, A.Heinz, D.Henderson, S.K.Hui, R.V.F.Janssens, C.L.Jiang, S.Jiang, Y.Nirel, R.C.Pardo, T.Pennington, K.E.Rehm, G.Savard, G.Verri, R.Vondrasek, I.Wiedenhover, M.Wiescher

Counting 44Ti Nuclei from the 40Ca(α, γ)44Ti Reaction

NUCLEAR REACTIONS 4He(40Ca, X)44Ti, E=70.9 MeV; measured yield. 44Ti deduced resonance strength. Chemical separation, accelerator mass spectrometry.

doi: 10.1016/S0375-9474(03)00720-6
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC0966.


2003RE16      Phys.Rev. C 67, 065809 (2003)

K.E.Rehm, A.H.Wuosmaa, C.L.Jiang, J.Caggiano, J.P.Greene, A.Heinz, D.Henderson, R.V.F.Janssens, E.F.Moore, G.Mukherjee, R.C.Pardo, T.Pennington, J.P.Schiffer, R.H.Siemssen, M.Paul, L.Jisonna, R.E.Segel

Branching ratio Γαγ of the 4.033 MeV 3/2+ state in 19Ne

NUCLEAR REACTIONS 3He(20Ne, α), E ≈ 98 MeV; measured particle spectra, yields, (particle)(recoil)-coin; deduced excitation energy spectra. 19Ne levels deduced α-decay branching widths. 15O(α, γ), E=low; deduced astrophysical reaction rates.

doi: 10.1103/PhysRevC.67.065809
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1487.


2003RE25      Nucl.Phys. A718, 151c (2003)

K.E.Rehm, A.H.Wuosmaa, C.L.Jiang, J.Greene, A.Heinz, D.Henderson, R.V.F.Janssens, L.Jisonna, E.F.Moore, G.Mukherjee, R.C.Pardo, M.Paul, T.Pennington, J.P.Schiffer, R.E.Segel, R.H.Siemssen

The Branching Ratio Γαγ of the 4.033 MeV State in 19Ne

NUCLEAR REACTIONS 3He(20Ne, α), E=105 MeV; measured particle spectra, (particle)(recoil)-coin. 19Ne levels deduced α-branching ratios, radiative widths. 15O(α, γ), E=low; deduced astrophysical reaction rates.

doi: 10.1016/S0375-9474(03)00706-1
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Note: The following list of authors and aliases matches the search parameter C.Jiang: , C.J.JIANG, C.L.JIANG, C.W.JIANG, C.Y.JIANG