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NSR database version of April 11, 2024.

Search: Author = Y.Litvinov

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2024SU04      Chin.Phys.C 48, 034002 (2024)

M.Z.Sun, Y.Yu, X.P.Wang, M.Wang, J.G.Li, Y.H.Zhang, K.Blaum, Z.Y.Chen, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, W.J.Huang, H.Y.Jiao, H.H.Li, H.F.Li, Y.F.Luo, T.Liao, Yu.A.Litvinov, M.Si, P.Shuai, J.Y.Shi, Q.Wang, Y.M.Xing, X.Xu, H.S.Xu, F.R.Xu, Q.Yuan, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, X.H.Zhou, X.Zhou, M.Zhang, Q.Zeng

Ground-state mass of ²²Al and test of state-of-the-art ab initio calculations

NUCLEAR STRUCTURE ²²Al, ²²F; calculated test of the state-of-the-art ab initio valence-space in-medium similarity renormalization group calculations with four sets of interactions derived from the chiral effective field theory using excitation energies and mirror energy differences.

doi: 10.1088/1674-1137/ad1a0a
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2023HU18      Phys.Rev. C 108, 034301 (2023)

W.J.Huang, X.Zhou, Y.H.Zhang, M.Wang, Yu.A.Litvinov, K.Blaum

Ground-state mass of the odd-odd n = z nuclide ⁷⁰Br

doi: 10.1103/PhysRevC.108.034301
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2023JI06      Phys. Rev. Res. 5, 023134 (2023)

J.Jin, H.Bekker, T.Kirschbaum, Y.A.Litvinov, A.Palffy, J.Sommerfeldt, A.Surzhykov, P.G.Thirolf, D.Budker

Excitation and probing of low-energy nuclear states at high-energy storage rings

RADIOACTIVITY ²²⁹Th(IT); analyzed available data; deduced electric dipole transitions changing both the electronic and nuclear states that are opened by the nuclear hyperfine mixing, and using them for efficient isomer excitation in Li-like ²²⁹Th ions, via stimulated Raman adiabatic passage or single-laser excitation.

doi: 10.1103/PhysRevResearch.5.023134
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2023LI31      Eur.Phys.J. A 59, 102 (2023)

Y.A.Litvinov, R.J.Chen

Radioactive decays of stored highly charged ions

COMPILATION ¹⁹Ne, ⁴⁹Cr(β⁺), ⁵²Mn(β⁺), (IT), ⁵²Fe(β⁺), ⁵³Fe(β⁺), (IT), ⁷²Ge(2γ), ⁹⁴Ru(IT), ¹²²I(β⁺), ¹³³Sb, ¹²⁵Ce(IT), ¹⁴⁰Pr, ¹⁴²Pm(β⁺), ¹⁴⁴Tb, ¹⁴⁹Dy(β⁺), (IT), ¹⁶³Dy(β^-), ¹⁵¹Er(β⁺), (IT), ^183,184Hf, ¹⁸⁶Hf(β^-), (IT), ¹⁶⁸Ta(β⁺), ¹⁸⁶Ta, ¹⁸⁷Ta(β^-), (IT), ¹⁸⁶W(IT), ¹⁸⁷Re(β^-), ¹⁹²Re, ¹⁹²Os, ¹⁹⁵Os(β^-), (IT), ²⁰⁵Hg(β⁺), (β^-), ²⁰⁵Tl(β^-), ²⁰⁷Tl(β⁺), (β^-), ²¹³Tl(β^-), ²¹²Bi(IT), ^221,222Po, ²²⁴At, ^234,235,236Ac(β^-); compiled decay modes, T_1/2 and methods for storage rings results. Comparison with ENSDF values.

doi: 10.1140/epja/s10050-023-00978-w
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2023NI07      Phys.Rev.Lett. 131, 022502 (2023)

L.Nies, D.Atanasov, M.Athanasakis-Kaklamanakis, M.Au, K.Blaum, J.Dobaczewski, B.S.Hu, J.D.Holt, J.Karthein, I.Kulikov, Y.A.Litvinov, D.Lunney, V.Manea, T.Miyagi, M.Mougeot, L.Schweikhard, A.Schwenk, K.Sieja, F.Wienholtz

Isomeric Excitation Energy for ⁹⁹In^m from Mass Spectrometry Reveals Constant Trend Next to Doubly Magic ¹⁰⁰Sn

ATOMIC MASSES ^99,100,101In; measured TOF; deduced mass excess, excitation energies. The ISOLTRAP mass spectrometer at ISOLDE/CERN.

RADIOACTIVITY ⁹⁹In(IT); measured decay products; deduced excitation energy with small uncertainty, intriguing constancy of the isomer excitation energies in neutron-deficient indium that persists down to the N=50 shell closure, even when all neutrons are removed from the valence shell. Comparison with large-scale shell model, ab initio, and density functional theory calculations.

doi: 10.1103/PhysRevLett.131.022502
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2023WA10      Phys.Rev.Lett. 130, 192501 (2023)

M.Wang, Y.H.Zhang, X.Zhou, X.H.Zhou, H.S.Xu, M.L.Liu, J.G.Li, Y.F.Niu, W.J.Huang, Q.Yuan, S.Zhang, F.R.Xu, Y.A.Litvinov, K.Blaum, Z.Meisel, R.F.Casten, R.B.Cakirli, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, H.F.Li, T.Liao, S.A.Litvinov, P.Shuai, J.Y.Shi, Y.N.Song, M.Z.Sun, Q.Wang, Y.M.Xing, X.Xu, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, M.Zhang

Mass Measurement of Upper fp-Shell N = Z - 2 and N = Z - 1 Nuclei and the Importance of Three-Nucleon Force along the N = Z Line

ATOMIC MASSES ⁵⁸Zn, ⁶⁰Ga, ⁶²Ge, ⁶⁴As, ⁶⁶Se, ⁷⁰Kr, ⁶¹Ga, ⁶³Ge, ⁶⁵As, ⁶⁷Se, ⁷¹Kr, ⁷⁵Sr; measured time-of-flight (TOF); deduced mass excess (ME). A novel method of isochronous mass spectrometry, the Heavy Ion Research Facility in Lanzhou (HIRFL).

doi: 10.1103/PhysRevLett.130.192501
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2023WA24      Eur.Phys.J. A 59, 154 (2023)

F.Wamers, C.Lehr, J.Marganiec-Galazka, F.Aksouh, Yu.Aksyutina, H.Alvarez-Pol, L.Atar, T.Aumann, S.Beceiro Novo, C.A.Bertulani, K.Boretzky, M.J.G.Borge, C.Caesar, M.Chartier, A.Chatillon, L.V.Chulkov, D.Cortina-Gil, P.Diaz Fernandez, H.Emling, O.Ershova, L.M.Fraile, H.O.U.Fynbo, D.Galaviz, H.Geissel, M.Heil, M.Holl, H.T.Johansson, B.Jonson, C.Karagiannis, O.A.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, T.Le Bleis, R.Lemmon, Yu.A.Litvinov, K.Mahata, C.Muntz, T.Nilsson, C.Nociforo, W.Ott, V.Panin, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, K.Riisager, C.Rodriguez-Tajes, D.Rossi, D.Savran, H.Scheit, G.Schrieder, P.Schrock, H.Simon, J.Stroth, K.Summerer, O.Tengblad, H.Weick, C.Wimmer

Diverse mechanisms in proton knockout reactions from the Borromean nucleus ¹⁷Ne

NUCLEAR REACTIONS ¹H, ¹²C(¹⁷Ne, 2p), (¹⁷Ne, ¹⁶F), E=500 MeV/nucleon; analyzed available data. ¹⁷Ne, ¹⁶F; deduced σ(E), resonance parameters, spectroscopic factors. The SIS-18 synchrotron at GSI.

doi: 10.1140/epja/s10050-023-01063-y
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2023XI01      Phys.Rev. C 107, 014304 (2023)

Y.M.Xing, C.X.Yuan, M.Wang, Y.H.Zhang, X.H.Zhou, Yu.A.Litvinov, K.Blaum, H.S.Xu, T.Bao, R.J.Chen, C.Y.Fu, B.S.Gao, W.W.Ge, J.J.He, W.J.Huang, T.Liao, J.G.Li, H.F.Li, S.Litvinov, S.Naimi, P.Shuai, M.Z.Sun, Q.Wang, X.Xu, F.R.Xu, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, M.Zhang, X.Zhou

Isochronous mass measurements of neutron-deficient nuclei from ¹¹²Sn projectile fragmentation

ATOMIC MASSES ⁶⁹As, ⁷³Br, ⁷⁵Kr, ⁷⁹Sr, ⁸¹Y, ⁸⁷Mo, ^87mMo, ⁹¹Ru, ^91mRu, ⁹³Rh, ^93mRh, ⁹⁵Pd, ^95mPd, ¹⁰³Sn; measured revolution times of stored ions, ToF; deduced mass excesses. ²⁷Al, ²⁹Si, ³¹P, ³³S, ³⁵Cl, ³⁷Ar, ^39,40K, ^41,42Ca, ^43,43mSc, ⁴⁶Ti, ^47,48V, ^50,49Cr, ^51,52,52mMn, ^51m,53,54Fe, ^55,56,57Co, ^57,58,59Ni, ^59,60,61Cu, ^62,63Zn, ^63,65Ga, ^65,66Ge, ^67,68,69,70Se, ⁷¹Br, ^73,74Kr, ^75,76,77Rb, ^77,78Sr, ⁸²Zr, ⁸⁴Nb, ⁸⁶Mo, ⁹⁰Ru, ⁹⁴Pd, ^97,97mAg, ⁹⁹Cd, ^101,101mIn; analyzed masses by comparing to previously measured values and AME2020 evaluation. ⁸⁷Mo, ⁹¹Ru, ⁹³Rh, ⁹⁵Pd; deduced isomer ratios, isomeric states and assigned J, π values as 1/2^- from systematics. ^91mRu; deduced mass excess based on the precise measured value for ⁹⁰Mo. ¹⁰⁴Sb, ¹⁰⁷Te, ¹⁰⁸I, ¹¹¹Xe, ¹¹²Cs; deduced mass excess based on measured mass excess value for ¹⁰³Sn and literature Q values for α- and p-decays. Systematics of 1/2^- isomers in Zr, Mo, Ru, Pd and Cd isotopes and comparison to shell-model calculations. Comparison to AME2020 and NUBASE2020. Isochronous mass spectrometry at the Cooler Storage Ring in Lanzhou of the fragments from ⁹Be(¹¹²Sn, X), E=400.88 MeV/nucleon reaction.

NUCLEAR REACTIONS ⁹Be(¹¹²Sn, X), E=400.88 MeV/nucleon; measured reaction products, number of produced fragments. ^87,87mMo, ^91,91mRu, ^93,93mRh, ^95,95mPd; deduced isomeric ratios.

doi: 10.1103/PhysRevC.107.014304
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2023ZH10      Eur.Phys.J. A 59, 27 (2023)

M.Zhang, X.Zhou, M.Wang, Y.H.Zhang, Yu.A.Litvinov, H.S.Xu, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, H.F.Li, T.Liao, S.A.Litvinov, P.Shuai, J.Y.Shi, R.S.Sidhu, Y.N.Song, M.Z.Sun, S.Suzuki, Q.Wang, Y.M.Xing, X.Xu, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, X.H.Zhou

Bρ-defined isochronous mass spectrometry and mass measurements of ⁵⁸Ni fragments

ATOMIC MASSES ²³Al, ²⁵Si, ²⁷P, ³¹Cl, ³³Ar, ³⁵K, ³⁷Ca, ⁴¹Ti, ⁴³V, ⁴⁵Cr, ⁴⁷Mn, ⁴⁹Fe, ⁵¹Co, ⁵³Ni, ⁵⁵Cu, ⁴³Ti, ^44,44mV, ⁴⁶Cr, ⁴⁸Mn, ^50,51Fe, ^52,52mCo, ⁵⁴Ni, ⁵⁶Cu, ^24,24mAl, ^44,44mV, ^52,52mCo; measured revolution time spectrum, frequencies; deduced masses, energy differences between the ground states and isomers. The experimental cooler-storage ring CSRe in Lanzhou.

doi: 10.1140/epja/s10050-023-00928-6
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2023ZH34      Phys.Rev. C 108, 014614 (2023)

J.T.Zhang, P.Ma, Y.Huang, X.L.Tu, P.Sarriguren, Z.P.Li, Y.Kuang, W.Horiuchi, T.Inakura, L.Xayavong, Y.Sun, K.Kaneko, X.Q.Liu, K.Yue, C.J.Shao, Q.Zeng, B.Mei, P.Egelhof, Yu.A.Litvinov, M.Wang, Y.H.Zhang, X.H.Zhou, Z.Y.Sun

Matter radius of ⁷⁸Kr from proton elastic scattering at 153 MeV

NUCLEAR REACTIONS ¹H(⁷⁸Kr, p), E=152 MeV/nucleon; measured Ep, Ip; deduced σ(θ). ⁷⁸Kr; deduced point-matter radius, neutron skin thickness. Glauber model analysis. Comparison of the obtained σ to FRESCO calculations with the phenomenological OMP parameters (KD03). Collision in Cooler Storage Ring of the Heavy Ion Research Facility in Lanzhou (HIRFL-CSR) with molecular hydrogen-gas target. MICRON double-sided Si-strip detector (DSSD) used to measure the recoil protons.

doi: 10.1103/PhysRevC.108.014614
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Data from this article have been entered in the XUNDL database. For more information, click here.

2022AL01      J.Phys.(London) G49, 010501 (2022)

M.Aliotta, R.Buompane, M.Couder, A.Couture, R.J.deBoer, A.Formicola, L.Gialanella, J.Glorius, G.Imbriani, M.Junker, C.Langer, A.Lennarz, Y.A.Litvinov, W.-P.Liu, M.Lugaro, C.Matei, Z.Meisel, L.Piersanti, R.Reifarth, D.Robertson, A.Simon, O.Straniero, A.Tumino, M.Wiescher, Y.Xu

The status and future of direct nuclear reaction measurements for stellar burning

NUCLEAR REACTIONS ¹²C(α, γ), ²²Ne(α, n), (α, γ), ¹²C(¹²C, X), E(cm)<7 MeV; analyzed available data; deduced σ, S-factors.

doi: 10.1088/1361-6471/ac2b0f
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2022KA35      Phys.Rev.Lett. 129, 142502 (2022)

S.Kaur, R.Kanungo, W.Horiuchi, G.Hagen, J.D.Holt, B.S.Hu, T.Miyagi, T.Suzuki, F.Ameil, J.Atkinson, Y.Ayyad, S.Bagchi, D.Cortina-Gil, I.Dillmann, A.Estrade, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, R.Knobel, J.Kurcewicz, Y.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, T.Otsuka, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, M.Takechi, J.Tanaka, I.Tanihata, S.Terashima, J.Vargas, H.Weick, J.S.Winfield

Proton Distribution Radii of ^16-24O: Signatures of New Shell Closures and Neutron Skin

NUCLEAR REACTIONS ¹²C(¹⁶O, X), (¹⁸O, X), (¹⁹O, X), (²⁰O, X), (²¹O, X), (²²O, X), (²³O, X), (²⁴O, X), E<1 GeV/nucleon; measured reaction products. ^{16,18,20,21,22,23,24}O; deduced charge changing σ, root mean square proton and matter radii, neutron skin thickness, shell closure. Comparison with with ab initio calculations employing the chiral NNLO sat interaction, shell model predictions. The fragment separator FRS at GSI.

doi: 10.1103/PhysRevLett.129.142502
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8052. Data from this article have been entered in the XUNDL database. For more information, click here.

2022LE02      Phys.Lett. B 827, 136957 (2022)

C.Lehr, F.Wamers, F.Aksouh, Yu.Aksyutina, H.Alvarez-Pol, L.Atar, T.Aumann, S.Beceiro Novo, C.A.Bertulani, K.Boretzky, M.J.G.Borge, C.Caesar, M.Chartier, A.Chatillon, L.V.Chulkov, D.Cortina-Gil, P.Diaz Fernandez, H.Emling, O.Ershova, L.M.Fraile, H.O.U.Fynbo, D.Galaviz, H.Geissel, M.Heil, M.Heine, D.H.H.Hoffmann, M.Holl, H.T.Johansson, B.Jonson, C.Karagiannis, O.A.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, T.Le Bleis, R.Lemmon, Yu.A.Litvinov, B.Loher, K.Mahata, J.Marganiec-Galazka, C.Muntz, T.Nilsson, C.Nociforo, W.Ott, V.Panin, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, K.Riisager, C.Rodriguez-Tajes, D.Rossi, D.Savran, H.Scheit, G.Schrieder, P.Schrock, H.Simon, J.Stroth, K.Summerer, O.Tengblad, H.Weick, C.Wimmer

Unveiling the two-proton halo character of ¹⁷Ne: Exclusive measurement of quasi-free proton-knockout reactions

NUCLEAR REACTIONS ¹H(¹⁷Ne, 2p), E=498 MeV/nucleon; measured reaction products. ¹⁷Ne; deduced σ(E), energy levels, two-proton halo. The GSI synchrotron SIS18.

doi: 10.1016/j.physletb.2022.136957
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2022LI20      Phys.Rev.Lett. 128, 152701 (2022)

H.F.Li, S.Naimi, T.M.Sprouse, M.R.Mumpower, Y.Abe, Y.Yamaguchi, D.Nagae, F.Suzaki, M.Wakasugi, H.Arakawa, W.B.Dou, D.Hamakawa, S.Hosoi, Y.Inada, D.Kajiki, T.Kobayashi, M.Sakaue, Y.Yokoda, T.Yamaguchi, R.Kagesawa, D.Kamioka, T.Moriguchi, M.Mukai, A.Ozawa, S.Ota, N.Kitamura, S.Masuoka, S.Michimasa, H.Baba, N.Fukuda, Y.Shimizu, H.Suzuki, H.Takeda, D.S.Ahn, M.Wang, C.Y.Fu, Q.Wang, S.Suzuki, Z.Ge, Y.A.Litvinov, G.Lorusso, P.M.Walker, Z.Podolyak, T.Uesaka

First Application of Mass Measurements with the Rare-RI Ring Reveals the Solar r-Process Abundance Trend at A=122 and A=123

ATOMIC MASSES ¹²³Pd, ¹²⁵Cd, ¹²⁶In; measured frequencies; deduced mass excess values with low uncertainties. Comparison with calculations. Radioactive Isotope Beam Factory (RIBF) in RIKEN.

doi: 10.1103/PhysRevLett.128.152701
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2022MU10      Phys.Rev. C 105, 034331 (2022)

M.Mukai, Y.Hirayama, Y.X.Watanabe, H.Watanabe, H.Koura, S.C.Jeong, H.Miyatake, M.Brunet, S.Ishizawa, F.G.Kondev, G.J.Lane, Yu.A.Litvinov, T.Niwase, M.Oyaizu, Zs.Podolyak, M.Rosenbusch, P.Schury, M.Wada, P.M.Walker

Ground-state β-decay spectroscopy of ¹⁸⁷Ta

RADIOACTIVITY ¹⁸⁷Ta(β^-)[from W(¹³⁶Xe, X), E=7.2 MeV/nucleon]; measured Eγ, Iγ, βγ-coin; deduced Iβ feedings, T_1/2, logft, Iγ/β-decay. ¹⁸⁷W; deduced Eγ, multipolarities, total conversion coefficients (BrIcc calculations). Comparison to KTUY+gross theory, FRDM+QRPA and RHB+pn-RQRPAKEK calculations. Isotope Separation System (KISS) at RIKEN, an argon-gas-cell-based laser ion source combined with an on-line isotope separator.

doi: 10.1103/PhysRevC.105.034331
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Data from this article have been entered in the XUNDL database. For more information, click here.

2022RO11      Phys.Rev. C 106, 014618 (2022)

J.L.Rodriguez-Sanchez, J.Benlliure, I.Vidana, H.Lenske, J.Vargas, C.Scheidenberger, H.Alvarez-Pol, J.Atkinson, T.Aumann, Y.Ayyad, S.Beceiro Novo, K.Boretzky, M.Caamano, E.Casarejos, D.Cortina-Gil, P.Diaz Fernandez, A.Estrade, H.Geissel, E.Haettner, A.Kelic-Heil, Yu.A.Litvinov, C.Paradela, D.Perez-Loureiro, S.Pietri, A.Prochazka, M.Takechi, Y.K.Tanaka, H.Weick, J.S.Winfield

Systematic study of Δ(1232) resonance excitations using single isobaric charge-exchange reactions induced by medium-mass projectiles of Sn

NUCLEAR REACTIONS ¹H, ¹²C, Cu, Pb(¹¹²Sn, ¹¹²In), (¹¹²Sn, ¹¹²Sb), ¹H, C(¹²⁴Sn, ¹²⁴Sb), E=1 GeV/nucleon; measured reaction products; deduced total σ, quasielastic and inelastic σ; missing energy spectra. Observed energy shift for the Δ-resonance peak of about 63 ± 5 MeV and quenching of the quasielastic component. Comparison to theoretical predictions using random phase approximation (RPA) with Giessen energy density functional (GiEDF). FRS spectrometer with SIS-18 synchrotron beam (GSI).

doi: 10.1103/PhysRevC.106.014618
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2022WA39      Phys.Rev. C 106, L051301 (2022)

M.Wang, M.Zhang, X.Zhou, Y.H.Zhang, Yu.A.Litvinov, H.S.Xu, R.J.Chen, H.Y.Deng, C.Y.Fu, W.W.Ge, H.F.Li, T.Liao, S.A.Litvinov, P.Shuai, J.Y.Shi, M.Si, R.S.Sidhu, Y.N.Song, M.Z.Sun, S.Suzuki, Q.Wang, Y.M.Xing, X.Xu, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, X.H.Zhou

Bρ-defined isochronous mass spectrometry: An approach for high-precision mass measurements of short-lived nuclei

ATOMIC MASSES ^44,44mV, ⁴⁶Cr, ⁴⁸Mn, ^50,51Fe, ^52,52mCo, ⁵⁴Ni, ⁵⁶Cu, ⁴³Ti; measured velocity and revolution time of stored ions; deduced mass excess. ⁵²Co; deduced S(p). Introduced technique for broadband high-precision mass spectrometry based on simultaneous determinations of revolution time and velocity of short-lived stored ions at the cooler storage ring CSRe in Lanzhou.Comparison to AME2020 values and other experimental results.

RADIOACTIVITY ⁴⁶Cr, ⁵⁰Fe, ⁵⁴Ni(EC); deduced Q values, ft using the values of mass excess obtained in this paper.

doi: 10.1103/PhysRevC.106.L051301
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2021DO02      Nucl.Phys. A1008, 122154 (2021)

A.V.Dobrovolsky, G.A.Korolev, S.Tang, G.D.Alkhazov, G.Colo, I.Dillmann, P.Egelhof, A.Estrade, F.Farinon, H.Geissel, S.Ilieva, A.G.Inglessi, Y.Ke, A.V.Khanzadeev, O.A.Kiselev, J.Kurcewicz, L.X.Chung, Yu.A.Litvinov, G.E.Petrov, A.Prochazka, C.Scheidenberger, L.O.Sergeev, H.Simon, M.Takechi, V.Volkov, A.A.Vorobyov, H.Weick, V.I.Yatsoura

Nuclear matter distributions in the neutron-rich carbon isotopes ^14-17C from intermediate-energy proton elastic scattering in inverse kinematics

NUCLEAR REACTIONS ¹H(¹²C, ¹²C), (¹⁴C, ¹⁴C), (¹⁵C, ¹⁵C), (¹⁶C, ¹⁶C), (¹⁷C, ¹⁷C), E ∼ 700 MeV/nucleon; measured reaction products. ^{12,14,15,16,17}C; deduced total and core matter distributions, rms radii. Comparison with available data, fragment separator FRS at GSI.

doi: 10.1016/j.nuclphysa.2021.122154
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2535.

2021HI11      Phys.Rev. A 104, 012809 (2021)

P.-M.Hillenbrand, K.N.Lyashchenko, S.Hagmann, O.Yu.Andreev, D.Banas, E.P.Benis, A.I.Bondarev, C.Brandau, E.De Filippo, O.Forstner, J.Glorius, R.E.Grisenti, A.Gumberidze, D.L.Guo, M.O.Herdrich, M.Lestinsky, Yu.A.Litvinov, E.V.Pagano, N.Petridis, M.S.Sanjari, D.Schury, U.Spillmann, S.Trotsenko, M.Vockert, A.B.Voitkiv, G.Weber, Th.Stohlker

Electron-loss-to-continuum cusp in collisions of U⁸⁹⁺ with N₂ and Xe

NUCLEAR REACTIONS N, Xe(U, X), E=75.91 MeV/nucleon; measured reaction products, Eβ, Iβ; deduced ionization, electron-loss-to-continuum (ELC) cusp, σ(θ, E). Comparison with calculations.

doi: 10.1103/PhysRevA.104.012809
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2021MO23      Nat.Phys. 17, 1099 (2021)

M.Mougeot, D.Atanasov, J.Karthein, R.N.Wolf, P.Ascher, K.Blaum, K.Chrysalidis, G.Hagen, J.D.Holt, W.J.Huang, G.R.Jansen, I.Kulikov, Yu.A.Litvinov, D.Lunney, V.Manea, T.Miyagi, T.Papenbrock, L.Schweikhard, A.Schwenk, T.Steinsberger, S.R.Stroberg, Z.H.Sun, A.Welker, F.Wienholtz, S.G.Wilkins, K.Zuber

Mass measurements of ^99-101In challenge ab initio nuclear theory of the nuclide ¹⁰⁰Sn

NUCLEAR REACTIONS La(p, X)⁹⁹In/¹⁰⁰In/¹⁰¹In, E=1.4 GeV; measured reaction products, TOF; deduced atomic masses. Comparison with AME2020, theoretical calculations.

doi: 10.1038/s41567-021-01326-9
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2021WA15      Phys.Lett. B 814, 136088 (2021)

H.Watanabe, Y.X.Watanabe, Y.Hirayama, A.N.Andreyev, T.Hashimoto, F.G.Kondev, G.J.Lane, Yu.A.Litvinov, J.J.Liu, H.Miyatake, J.Y.Moon, A.I.Morales, M.Mukai, S.Nishimura, T.Niwase, M.Rosenbusch, P.Schury, Y.Shi, M.Wada, P.M.Walker

Beta decay of the axially asymmetric ground state of ¹⁹²Re

RADIOACTIVITY ¹⁹²Re(β^-) [from Pt(¹³⁶Xe, X)¹⁹²Re, E=10.75 MeV/nucleon]; measured decay products, Eγ, Iγ; deduced γ-ray energies and intensities, level scheme, J, π. Comparison with single-particle structure using the nuclear Skyrme-Hartree-Fock model. KEK Isotope Separation System (KISS) in RIKEN Nishina Center.

doi: 10.1016/j.physletb.2021.136088
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2021WA39      Phys.Rev. C 104, 024330 (2021)

Y.X.Watanabe, P.M.Walker, Y.Hirayama, M.Mukai, H.Watanabe, G.J.Lane, M.Ahmed, M.Brunet, T.Hashimoto, S.Ishizawa, S.Kimura, F.G.Kondev, Yu.A.Litvinov, H.Miyatake, J.Y.Moon, T.Niwase, M.Oyaizu, J.H.Park, Zs.Podolyak, M.Rosenbusch, P.Schury, M.Wada

First direct observation of isomeric decay in neutron-rich odd-odd ¹⁸⁶Ta

RADIOACTIVITY ¹⁸⁶Ta(β^-), ^186mTa(IT)[from W(¹³⁶Xe, X), E=7.2 MeV/nucleon, followed by laser ionization and mass separation at the KEK Isotope Separation System (KISS) of RIBF-RIKEN facility]; measured Eγ, Iγ, (particle)γ-coin, half-lives of decays of ¹⁸⁶Ta and neutral ^186mTa from γ-decay curves. ¹⁸⁶Ta; deduced levels, J, π, E3 multipolarity of the 161-keV isomeric transition from a comparison of measured half-life of the neutral isomer with previous measurements of the ionized isomeric state of ¹⁸⁶Ta using the Experimental Storage Ring at GSI Darmstadt, no evidence found for the β decay mode of the ¹⁸⁶Ta isomer.

doi: 10.1103/PhysRevC.104.024330
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2021YA25      Prog.Part.Nucl.Phys. 120, 103882 (2021)

T.Yamaguchi, H.Koura, Yu.A.Litvinov, M.Wang

Masses of exotic nuclei

ATOMIC MASSES N<180; analyzed available data; deduced masses.

doi: 10.1016/j.ppnp.2021.103882
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2021ZH50      Phys.Rev. C 104, 034303 (2021)

J.T.Zhang, X.L.Tu, P.Sarriguren, K.Yue, Q.Zeng, Z.Y.Sun, M.Wang, Y.H.Zhang, X.H.Zhou, Yu.A.Litvinov

Systematic trends of neutron skin thickness versus relative neutron excess

NUCLEAR STRUCTURE ^{40,42,44,46,48}Ca, ^58,60,62,64Ni, ^{106,110,112,114,116}Cd, ^{112,114,116,118,120,122,124}Sn, ^204,206,208Pb; compiled and evaluated experimental data for skin thicknesses from experiments involving interaction cross sections, antiprotonic atom, giant dipole resonance (GDR), spin dipole resonance (SDR), and pygmy dipole resonance (PDR); deduced trends of experimental neutron skin thickness versus relative neutron excess for isotopic chains, and compared with calculations using deformed Skyrme Hartree-Fock + Bardeen-Cooper-Schrieffer model with SLy4 force. Relevance to role of skin thicknesses in constraining the parameters of the equation of state (EOS) of isospin asymmetric nuclear matter.

doi: 10.1103/PhysRevC.104.034303
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2020BO24      Sci. Rep. 10, 17183 (2020)

P.Boller, A.Zylstra, P.Neumayer, L.Bernstein, C.Brabetz, J.Despotopulos, J.Glorius, J.Hellmund, E.A.Henry, J.Hornung, J.Jeet, J.Khuyagbaatar, L.Lens, S.Roeder, T.Stoehlker, A.Yakushev, Y.A.Litvinov, D.Shaughnessy, V.Bagnoud, T.Kuehl, D.H.G.Schneider

First on-line detection of radioactive fission isotopes produced by laser-accelerated protons

NUCLEAR REACTIONS U(p, F)¹³⁴I/¹³⁶I/¹³⁷Xe/¹³⁸Xe/¹³⁹Xe/¹⁴⁰Cs, E=15-70 MeV; measured reaction products, Eγ, Iγ; deduced production σ, yields. Target Normal Sheath Acceleration, PHELIX laser.

RADIOACTIVITY ^134,136I(IT), ^137,138,139Xe, ¹⁴⁰Cs(β^-); measured decay products, Eγ, Iγ; deduced γ-ray energies and relative intensities.

doi: 10.1038/s41598-020-74045-5
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2020FU05      Phys.Rev. C 102, 054311 (2020)

C.Y.Fu, Y.H.Zhang, M.Wang, X.H.Zhou, Yu.A.Litvinov, K.Blaum, H.S.Xu, X.Xu, P.Shuai, Y.H.Lam, R.J.Chen, X.L.Yan, X.C.Chen, J.J.He, S.Kubono, M.Z.Sun, X.L.Tu, Y.M.Xing, Q.Zeng, X.Zhou, W.L.Zhan, S.Litvinov, G.Audi, T.Uesaka, T.Yamaguchi, A.Ozawa, B.H.Sun, Y.Sun, F.R.Xu

Mass measurements for the T_z= -2 fp-shell nuclei ⁴⁰Ti, ⁴⁴Cr, ⁴⁶Mn, ⁴⁸Fe, ⁵⁰Co, and ⁵²Ni

ATOMIC MASSES ⁴⁰Ti, ⁴⁴Cr, ⁴⁶Mn, ⁴⁸Fe, ⁵⁰Co, ⁵²Ni; measured revolution time spectrum of stored ions by time-of-flight detectors, and mass excesses using isochronous mass spectrometry at CSRe-HIRFL, Lanzhou. Isotopes produced in ⁹Be(⁵⁸Ni, X), E=468 MeV/nucleon reaction and separated using RIBLL2. Comparison with AME-2016 evaluation, and with theoretical calculations using four mass-models. A=44, 46, 50, 52; analyzed isospin multiplet mass equation (IMME) and T=2 quintets. ⁴⁴V; proposed isobaric analog state (IAS).

RADIOACTIVITY ⁴⁴Cr(β⁺), (β⁺p); analyzed decay scheme; deduced β feedings, logft values, B(GT) from the branching ratios of β⁺-delayed protons and Q values.

doi: 10.1103/PhysRevC.102.054311
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2020HI04      Phys.Rev. A 101, 022708 (2020)

P.-M.Hillenbrand, S.Hagmann, M.E.Groshev, D.Banas, E.P.Benis, C.Brandau, E.De Filippo, O.Forstner, J.Glorius, R.E.Grisenti, A.Gumberidze, D.L.Guo, B.Hai, M.O.Herdrich, M.Lestinsky, Yu.A.Litvinov, E.V.Pagano, N.Petridis, M.S.Sanjari, D.Schury, U.Spillmann, S.Trotsenko, M.Vockert, G.Weber, V.A.Yerokhin, Th.Stohlker

Radiative electron capture to the continuum in U⁸⁹⁺ + N₂ collisions: Experiment and theory

NUCLEAR REACTIONS N(U, X), E=75.91 MeV/nucleon; measured reaction products, Eβ, Iβ, X-rays; deduced electron σ(θ, E). Comparison with theoretical calculations.

doi: 10.1103/PhysRevA.101.022708
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2020KR12      Phys.Rev. A 102, 042825 (2020)

F.M.Kroger, G.Weber, M.O.Herdrich, J.Glorius, C.Langer, Z.Slavkovska, L.Bott, C.Brandau, B.Bruckner, K.Blaum, X.Chen, S.Dababneh, T.Davinson, P.Erbacher, S.Fiebiger, T.Gassner, K.Gobel, M.Groothuis, A.Gumberidze, Gy.Gyurky, S.Hagmann, C.Hahn, M.Heil, R.Hess, R.Hensch, P.Hillmann, P.-M.Hillenbrand, O.Hinrichs, B.Jurado, T.Kausch, A.Khodaparast, T.Kisselbach, N.Klapper, C.Kozhuharov, D.Kurtulgil, G.Lane, C.Lederer-Woods, M.Lestinsky, S.Litvinov, Yu.A.Litvinov, B.Loher, F.Nolden, N.Petridis, U.Popp, M.Reed, R.Reifarth, M.S.Sanjari, H.Simon, U.Spillmann, M.Steck, J.Stumm, T.Szucs, T.T.Nguyen, A.Taremi Zadeh, B.Thomas, S.Yu.Torilov, H.Tornqvist, C.Trageser, S.Trotsenko, M.Volknandt, M.Weigand, C.Wolf, P.J.Woods, V.P.Shevelko, I.Yu.Tolstikhina, Th.Stohlker

Electron capture of Xe⁵⁴⁺ in collisions with H₂ molecules in the energy range between 5.5 and 30.9 MeV/u

NUCLEAR REACTIONS H(Xe, X), E=5.5-30.9 MeV/nucleon; measured reaction products, X-rays; deduced X-ray spectra, electron-capture σ. Comparison with available data.

doi: 10.1103/PhysRevA.102.042825
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2020KU19      Nucl.Phys. A1002, 121990 (2020)

I.Kulikov, A.Algora, D.Atanasov, P.Ascher, K.Blaum, R.B.Cakirli, A.Herlert, W.J.Huang, J.Karthein, Yu.A.Litvinov, D.Lunney, V.Manea, M.Mougeot, L.Schweikhard, A.Welker, F.Wienholtz

Masses of short-lived ⁴⁹Sc, ⁵⁰Sc, ⁷⁰As, ⁷³Br and stable ¹⁹⁶Hg nuclides

ATOMIC MASSES ^49,50Sc, ⁷⁰As, ⁷³Br, ¹⁹⁶Hg; measured frequencies, time of flight; deduced mass excesses. Comparison with AME2016 evaluation.

doi: 10.1016/j.nuclphysa.2020.121990
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2020MA09      Phys.Rev.Lett. 124, 092502 (2020)

V.Manea, J.Karthein, D.Atanasov, M.Bender, K.Blaum, T.E.Cocolios, S.Eliseev, A.Herlert, J.D.Holt, W.J.Huang, Y.A.Litvinov, D.Lunney, J.Menendez, M.Mougeot, D.Neidherr, L.Schweikhard, A.Schwenk, J.Simonis, A.Welker, F.Wienholtz, K.Zuber

First Glimpse of the N=82 Shell Closure below Z=50 from Masses of Neutron-Rich Cadmium Isotopes and Isomers

ATOMIC MASSES ^{124,126,127,127m,128,129,129m,131,132}Cd; measured mass excesses using phase-imaging ion cyclotron-resonance (PI-ICR) method with the ISOLTRAP spectrometer at ISOLDE-CERN. Cd isotopes were produced in U(p, F), E=1.4 GeV reaction followed by separation of fission fragments using ISOLDE High-resolution separator. Comparison with literature data in AME2016 evaluation, and with large-scale shell-model, mean-field, beyond-mean-field, and ab initio valence-space in-medium similarity renormalization group (VS-IMSRG) calculations. Systematics of S(n) for N=81, 83 and Z=48-68, and for two-neutron shell gaps for N=82, Z=42-70 nuclei.

doi: 10.1103/PhysRevLett.124.092502
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2020RO12      Phys.Lett. B 807, 135565 (2020)

J.L.Rodriguez-Sanchez, J.Benlliure, I.Vidana, H.Lenske, C.Scheidenberger, J.Vargas, H.Alvarez-Pol, J.Atkinson, T.Aumann, Y.Ayyad, S.Beceiro Novo, K.Boretzky, M.Caamano, E.Casarejos, D.Cortina-Gil, P.Diaz Fernandez, A.Estrade, H.Geissel, E.Haettner, A.Kelic-Heil, Yu.A.Litvinov, C.Paradela, D.Perez-Loureiro, S.Pietri, A.Prochazka, M.Takechi, Y.K.Tanaka, H.Weick, J.S.Winfield

Study of Δ excitations in medium-mass nuclei with peripheral heavy ion charge-exchange reactions

NUCLEAR REACTIONS C(¹¹²Sn, ¹¹²In), E=1 GeV/nucleon; analyzed available data; deduced missing spectra, change in the relative magnitude between the contribution of the excitation of the resonance in the target and in the projectile.

doi: 10.1016/j.physletb.2020.135565
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2020WA29      Phys.Rev.Lett. 125, 192505 (2020)

P.M.Walker, Y.Hirayama, G.J.Lane, H.Watanabe, G.D.Dracoulis, M.Ahmed, M.Brunet, T.Hashimoto, S.Ishizawa, F.G.Kondev, Y.A.Litvinov, H.Miyatake, J.Y.Moon, M.Mukai, T.Niwase, J.H.Park, Z.Podolyak, M.Rosenbusch, P.Schury, M.Wada, X.Y.Watanabe, W.Y.Liang, F.R.Xu

Properties of ¹⁸⁷Ta Revealed through Isomeric Decay

RADIOACTIVITY ¹⁸⁷Ta(IT) [from W(¹³⁶Xe, X), E=7.2 MeV/nucleon]; measured decay products, Eγ, Iγ, Eβ, Iβ, γ-γ-, β-γ-coin.; deduced level energies, J, π, T_1/2. Comparison with theoretical calculations.

doi: 10.1103/PhysRevLett.125.192505
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2020ZH24      Nucl.Instrum.Methods Phys.Res. B478, 46 (2020)

J.T.Zhang, K.Yue, C.J.Shao, X.L.Tu, Y.Y.Wang, P.Ma, B.Mei, X.C.Chen, Y.Y.Yang, Z.Y.Sun, M.Wang, V.P.Shevelko, I.Yu.Tolstikhina, Yu.A.Litvinov, Y.H.Zhang, X.H.Zhou

Employing p + ⁵⁸Ni elastic scattering for determination of K-shell ionization cross section of ⁵⁸Ni¹⁹⁺n collisions with hydrogen gas target at 95 MeV/u

NUCLEAR REACTIONS ¹H(⁵⁸Ni, X), E=95 MeV/nucleon; measured reaction products; deduced ionization σ.

doi: 10.1016/j.nimb.2020.05.022
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2019BA11      Phys.Lett. B 790, 251 (2019)

S.Bagchi, R.Kanungo, W.Horiuchi, G.Hagen, T.D.Morris, S.R.Stroberg, T.Suzuki, F.Ameil, J.Atkinson, Y.Ayyad, D.Cortina-Gil, I.Dillmann, A.Estrade, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, S.Kaur, R.Knobel, J.Kurcewicz, Yu.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, M.Takechi, J.Tanaka, Y.Tanaka, I.Tanihata, S.Terashima, J.Vargas, H.Weick, J.S.Winfield

Neutron skin and signature of the N = 14 shell gap found from measured proton radii of ^17-22N

NUCLEAR REACTIONS C(¹⁴N, X), (¹⁵N, X), (¹⁷N, X), (¹⁸N, X), (¹⁹N, X), (²⁰N, X), (²¹N, X), (²²N, X), E=851-932 MeV/nucleon; measured reaction products. ^{14,15,17,18,19,20,21,22}N; deduced σ, root mean square point proton and matter radii, unconventional shell gap at N = 14 arising from the attractive proton–neutron tensor interaction. Comparison with ab initio calculations.

doi: 10.1016/j.physletb.2019.01.024
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2019DO01      Phys.Rev. C 99, 014319 (2019)

J.M.Dong, J.Z.Gu, Y.H.Zhang, W.Zuo, L.J.Wang, Yu.A.Litvinov, Y.Sun

Beyond Wigner's isobaric multiplet mass equation: Effect of charge-symmetry-breaking interaction and Coulomb polarization

NUCLEAR STRUCTURE A=13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61; calculated coefficient of the added cubic term to the isobaric multiplet mass equation (IMME) for T=3/2 isobaric quartets, and density differences between neutron and proton for A=37 and 43 isobaric doublets. A=12, 16, 20, 24, 28, 32, 36; calculated coefficients of the added cubic and quartic terms to the isobaric multiplet mass equation (IMME) for T=2 isobaric quintets. Deduced general deviation from the original IMME, and the magnitude of the deviation exhibiting an oscillation-like behavior with mass number, modulated by the shell effect. Comparison with available experimental values.

doi: 10.1103/PhysRevC.99.014319
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2019DO05      Nucl.Phys. A989, 40 (2019)

A.V.Dobrovolsky, G.A.Korolev, A.G.Inglessi, G.D.Alkhazov, G.Colo, I.Dillmann, P.Egelhof, A.Estrade, F.Farinon, H.Geissel, S.Ilieva, Y.Ke, A.V.Khanzadeev, O.A.Kiselev, J.Kurcewicz, X.C.Le, Yu.A.Litvinov, G.E.Petrov, A.Prochazka, C.Scheidenberger, L.O.Sergeev, H.Simon, M.Takechi, S.Tang, V.Volkov, A.A.Vorobyov, H.Weick, V.I.Yatsoura

Nuclear-matter distribution in the proton-rich nuclei ⁷Be and ⁸B from intermediate energy proton elastic scattering in inverse kinematics

NUCLEAR REACTIONS ¹H(⁷Be, ⁷Be), E=701 MeV/nucleon;¹H(⁸B, x), E=702 MeV/nucleon; measured reaction products. ⁷Be, ⁸B; deduced σ, dσ/dt, σ_pp, σ_pn, parameters using fit to the data, nuclear matter density distribution, nuclear matter radii for both ⁷Be and ⁸B. Compared with other calculations and published measurements.

doi: 10.1016/j.nuclphysa.2019.05.012
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2019FR08      Hyperfine Interactions 240, 66 (2019)

N.Frommgen, W.Nortershauser, M.L.Bissell, K.Blaum, C.Geppert, M.Hammen, M.Kowalska, J.Kramer, K.Kreim, A.Krieger, Y.A.Litvinov, R.Neugart, G.Neyens, J.Papuga, R.Sanchez, D.T.Yordanov

Hyperfine structure and nuclear magnetic moments of the praseodymium isotopes ^{135, 136, 137}Pr

NUCLEAR MOMENTS ^135,136,137Pr; measured frequencies; deduced hyperfine parameters and magnetic moments. Comparison with available data.

doi: 10.1007/s10751-019-1608-5
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2019GL01      Phys.Rev.Lett. 122, 092701 (2019)

J.Glorius, C.Langer, Z.Slavkovska, L.Bott, C.Brandau, B.Bruckner, K.Blaum, X.Chen, S.Dababneh, T.Davinson, P.Erbacher, S.Fiebiger, T.Gassner, K.Gobel, M.Groothuis, A.Gumberidze, G.Gyurky, M.Heil, R.Hess, R.Hensch, P.Hillmann, P.-M.Hillenbrand, O.Hinrichs, B.Jurado, T.Kausch, A.Khodaparast, T.Kisselbach, N.Klapper, C.Kozhuharov, D.Kurtulgil, G.Lane, C.Lederer-Woods, M.Lestinsky, S.Litvinov, Y.A.Litvinov, B.Loher, F.Nolden, N.Petridis, U.Popp, T.Rauscher, M.Reed, R.Reifarth, M.S.Sanjari, D.Savran, H.Simon, U.Spillmann, M.Steck, T.Stohlker, J.Stumm, A.Surzhykov, T.Szucs, T.T.Nguyen, A.Taremi Zadeh, B.Thomas, S.Yu.Torilov, H.Tornqvist, M.Trager, C.Trageser, S.Trotsenko, L.Varga, M.Volknandt, H.Weick, M.Weigand, C.Wolf, P.J.Woods, Y.M.Xing

Approaching the Gamow Window with Stored Ions: Direct Measurement of ¹²⁴Xe(p, γ) in the ESR Storage Ring

NUCLEAR REACTIONS ¹²⁴Xe(p, γ), E=5.5-8 MeV/nucleon; measured reaction products, X-rays; deduced σ, σ(θ).

doi: 10.1103/PhysRevLett.122.092701
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2019HU15      Eur.Phys.J. A 55, 96 (2019)

W.J.Huang, D.Atanasov, G.Audi, K.Blaum, R.B.Cakirli, A.Herlert, M.Kowalska, S.Kreim, Yu.A.Litvinov, D.Lunney, V.Manea, M.Mougeot, M.Rosenbusch, L.Schweikhard, A.Welker, F.Wienholtz, R.N.Wolf, K.Zuber

Evaluation of high-precision atomic masses of A ∼ 50-80 and rare-earth nuclides measured with ISOLTRAP

NUCLEAR REACTIONS Ta, U(p, x), E=1.4 GeV; measured reactions on thick, heated target[U in the form of uranium carbide] using Penning-trap spectrometer ISOLTRAP. ^{52,53,54,55,56,57}Cr, ⁵⁵Mn, ^56,59Fe, ⁵⁹Co, ^75,77,78,79Ga, ¹⁴⁰Ce, ¹⁴⁰Nd, ¹⁵⁶Dy, ¹⁶⁰Yb, ^168mLu, ¹⁷⁸Yb; deduced mass excess. Compared with AME2012, suggested combined mass excess value.

doi: 10.1140/epja/i2019-12775-5
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2019KO18      Phys.Rev.Lett. 123, 092502 (2019)

D.Kostyleva, I.Mukha, L.Acosta, E.Casarejos, V.Chudoba, A.A.Ciemny, W.Dominik, J.A.Duenas, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, A.Gorshkov, L.V.Grigorenko, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Y.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, C.Scheidenberger, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield, X.Xu, M.V.Zhukov

Towards the Limits of Existence of Nuclear Structure: Observation and First Spectroscopy of the Isotope ³¹K by Measuring Its Three-Proton Decay

RADIOACTIVITY ³¹K(p), (2p), (3p) [from ⁹Be(³⁶Ar, X)³¹Ar, E=885 MeV/nucleon]; measured decay products, Ep, Ip; deduced energies of the ground and excited states of ³¹K, upper T_1/2 limit for the states.

doi: 10.1103/PhysRevLett.123.092502
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2019OZ03      Phys.Lett. B 797, 134800 (2019)

F.C.Ozturk, B.Akkus, D.Atanasov, H.Beyer, F.Bosch, D.Boutin, C.Brandau, P.Buhler, R.B.Cakirli, R.J.Chen, W.D.Chen, X.C.Chen, I.Dillmann, C.Dimopoulou, W.Enders, H.G.Essel, T.Faestermann, O.Forstner, B.S.Gao, H.Geissel, R.Gernhauser, R.E.Grisenti, A.Gumberidze, S.Hagmann, T.Heftrich, M.Heil, M.O.Herdrich, P.-M.Hillenbrand, T.Izumikawa, P.Kienle, C.Klaushofer, C.Kleffner, C.Kozhuharov, R.K.Knobel, O.Kovalenko, S.Kreim, T.Kuhl, C.Lederer-Woods, M.Lestinsky, S.A.Litvinov, Yu.A.Litvinov, Z.Liu, X.W.Ma, L.Maier, B.Mei, H.Miura, I.Mukha, A.Najafi, D.Nagae, T.Nishimura, C.Nociforo, F.Nolden, T.Ohtsubo, Y.Oktem, S.Omika, A.Ozawa, N.Petridis, J.Piotrowski, R.Reifarth, J.Rossbach, R.Sanchez, M.S.Sanjari, C.Scheidenberger, R.S.Sidhu, H.Simon, U.Spillmann, M.Steck, Th.Stohlker, B.H.Sun, L.A.Susam, F.Suzaki, T.Suzuki, S.Yu.Torilov, C.Trageser, M.Trassinelli, S.Trotsenko, X.L.Tu, P.M.Walker, M.Wang, G.Weber, H.Weick, N.Winckler, D.F.A.Winters, P.J.Woods, T.Yamaguchi, X.D.Xu, X.L.Yan, J.C.Yang, Y.J.Yuan, Y.H.Zhang, X.H.Zhou

New test of modulated electron capture decay of hydrogen-like ¹⁴²Pm ions: Precision measurement of purely exponential decay

RADIOACTIVITY ¹⁴²Pm(EC); measured decay products; deduced T_1/2.

doi: 10.1016/j.physletb.2019.134800
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2019XU09      Phys.Rev. C 99, 064303 (2019)

X.Xu, M.Wang, K.Blaum, J.D.Holt, Yu.A.Litvinov, A.Schwenk, J.Simonis, S.R.Stroberg, Y.H.Zhang, H.S.Xu, P.Shuai, X.L.Tu, X.H.Zhou, F.R.Xu, G.Audi, R.J.Chen, X.C.Chen, C.Y.Fu, Z.Ge, W.J.Huang, S.Litvinov, D.W.Liu, Y.H.Lam, X.W.Ma, R.S.Mao, A.Ozawa, B.H.Sun, Y.Sun, T.Uesaka, G.Q.Xiao, Y.M.Xing, T.Yamaguchi, Y.Yamaguchi, X.L.Yan, Q.Zeng, H.W.Zhao, T.C.Zhao, W.Zhang, W.L.Zhan

Masses of neutron-rich ^52-54Sc and ^{54, 56}Ti nuclides: The N=32 subshell closure in scandium

ATOMIC MASSES ^52,53,54Sc, ^54,56Ti; measured mass excesses using isochronous mass spectrometry at CRSe-HIRFL, Lanzhou. Isotopes produced in ⁹Be(⁸⁶Kr, X), E=460.65 MeV/nucleon reaction and separated using RIBLL2. Comparison with AME-2012 evaluation, and results from six previous experiments, and with valence-space in-medium similarity renormalization group (VS-IMSRG) calculations. Systematics of S(2n) values in N=27-34 K, Ca, Sc, Ti isotopic chains, and those of empirical shell gaps in N=24-34 K, Ca, Sc, Ti isotopic chains and Z=19-25 N=32 isotones.

doi: 10.1103/PhysRevC.99.064303
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2019XU13      Phys.Rev. C 100, 051303 (2019)

X.Xu, J.H.Liu, C.X.Yuan, Y.M.Xing, M.Wang, Y.H.Zhang, X.H.Zhou, Yu.A.Litvinov, K.Blaum, R.J.Chen, X.C.Chen, C.Y.Fu, B.S.Gao, J.J.He, S.Kubono, Y.H.Lam, H.F.Li, M.L.Liu, X.W.Ma, P.Shuai, M.Si, M.Z.Sun, X.L.Tu, Q.Wang, H.S.Xu, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, P.Zhang, X.Zhou, W.L.Zhan, S.Litvinov, G.Audi, S.Naimi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, B.H.Sun, K.Kaneko, Y.Sun, F.R.Xu

Masses of ground and isomeric states of ¹⁰¹In and configuration-dependent shell evolution in odd-$A$ indium isotopes

ATOMIC MASSES ¹⁰¹In, ^101mIn; measured mass excesses using storage-ring based isochronous mass spectrometry technique; deduced energy of the isomeric state. Comparison with systematic values in AME-2016 values. Systematics of 1/2- isomeric states in ^{101,103,105,107,109,111}In, data from the present experiment for ¹⁰¹In and from the ENSDF database for others.

NUCLEAR STRUCTURE ^{101,103,105,107,109,111,113}In; calculated energies of the 1/2- isomeric levels, neutron occupation numbers for 1/2- and 9/2+ levels, neutron effective single-particle energies of ν1g_7/2 with respect to ν2d_5/2 for 9/2+ and 1/2- levels using state-of-the-art shell-model calculations. Comparison with available experimental data.

NUCLEAR REACTIONS ⁹Be(¹¹²Sn, X)³¹P/³³S/³⁵Cl/³⁷Ar/³⁹K/⁵⁸Ni/⁶⁰Cu/⁶²Zn/⁶⁴Ga/⁶⁶Ge/⁶⁸As/⁷⁰Se/⁷²Br/⁷⁴Rb/⁷⁶Rb/⁷⁸Sr/⁸⁰Y/⁸⁹Tc/⁹¹Ru/^91mRu/⁹³Rh/⁹⁵Pd/^95mPd/⁹⁷Ag/⁹⁹Cd/¹⁰¹In/^101mIn/¹⁰³Sn, E=400.88 MeV/nucleon; measured reaction products selected and analyzed by RIBLL2 separator, and revolution time spectrum at the Cooler Storage Ring (CSR) accelerator complex of HIRFL-Lanzhou facility.

doi: 10.1103/PhysRevC.100.051303
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2019YU04      Phys.Rev. C 100, 054609 (2019); Erratum Phys.Rev. C 102, 049901 (2020)

K.Yue, J.T.Zhang, X.L.Tu, C.J.Shao, H.X.Li, P.Ma, B.Mei, X.C.Chen, Y.Y.Yang, X.Q.Liu, Y.M.Xing, K.H.Fang, X.H.Li, Z.Y.Sun, M.Wang, P.Egelhof, Yu.A.Litvinov, K.Blaum, Y.H.Zhang, X.H.Zhou

Measurement of ⁵⁸Ni(p, p)⁵⁸Ni elastic scattering at low momentum transfer by using the HIRFL-CSR heavy-ion storage ring

NUCLEAR REACTIONS ¹H(⁵⁸Ni, p), E=95 MeV/nucleon; measured Ep, Ip, E(x-ray), I(x-ray), absolute differential σ(θ) using a single-sided silicon detector (SSSD) detector at the Cooler Storage Ring (CSRe) at the Heavy Ion Research Facility in Lanzhou (HIRFL-CSR); deduced nuclear matter rms value. Comparison with KDO3 and LC08 optical model calculations, and with previous experimental results.

doi: 10.1103/PhysRevC.100.054609
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2018FU11      Phys.Rev. C 98, 014315 (2018)

C.Y.Fu, Y.H.Zhang, X.H.Zhou, M.Wang, Yu.A.Litvinov, K.Blaum, H.S.Xu, X.Xu, P.Shuai, Y.H.Lam, R.J.Chen, X.L.Yan, T.Bao, X.C.Chen, H.Chen, J.J.He, S.Kubono, D.W.Liu, R.S.Mao, X.W.Ma, M.Z.Sun, X.L.Tu, Y.M.Xing, P.Zhang, Q.Zeng, X.Zhou, W.L.Zhan, S.Litvinov, G.Audi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, B.H.Sun, Y.Sun, F.R.Xu

Masses of the T_z = -3/2 nuclei ²⁷P and ²⁹S

ATOMIC MASSES ²⁷P, ²⁹S; measured revolution time spectrum, and mass excesses using isochronous mass spectrometry (IMS) technique at Cooler Storage Ring (CSR) of HIRFL-Lanzhou facility. ²⁹S, ²⁹P, ²⁹Si, ²⁹Al; analyzed linear and quadratic coefficients of the isobaric multiplet mass equation (IMME). Comparison with AME-2016 values. ²⁷P, ²⁹S; isotopes produced in ⁹Be(⁵⁸Ni, X), E=468 MeV/nucleon reaction, and using RIBLL2 fragment separator.

doi: 10.1103/PhysRevC.98.014315
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2018GR12      Phys.Rev. C 98, 064309 (2018)

L.V.Grigorenko, I.Mukha, D.Kostyleva, C.Scheidenberger, L.Acosta, E.Casarejos, V.Chudoba, A.A.Ciemny, W.Dominik, J.A.Duenas, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, A.Gorshkov, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, E.Yu.Nikolskii, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, P.Sharov, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield, X.Xu, M.V.Zhukov

Deep excursion beyond the proton dripline. II. Toward the limits of existence of nuclear structure

NUCLEAR STRUCTURE ^28,29,30Cl, ^29,30,31Ar; analyzed experimental results obtained in companion paper 2018Mu18; deduced large Thomas-Ehrmann shifts. ^{25,26,27,28,29,30}Cl, ^{26,27,28,29,30,31}Ar; calculated S(p) for Cl and S(2p) for Ar isotopes and compared with available experimental values, level energies in ^26,27Cl and compared to mirror levels in isobaric partners ²⁶F and ²⁷Ne. ^24,25,26S; estimated S(2p), S(3p), S(4p) values. Systematics of odd-even staggering energies in ^{19,20,22,24,26,28}Ne, ^{19,21,23,25,27}F, ^21,22Mg, ^23,24Si, ²⁶S, which are isotones of ^27,28Ar.

RADIOACTIVITY ^{26,27,28,29,31}Ar, ^{26,27,28,29,31}Cl(p); calculated widths and T_1/2 of Ar isotopes. This paper is a continuation of the analyses of experimental data reported in their companion paper 2018Mu18.

doi: 10.1103/PhysRevC.98.064309
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2018KO13      Phys.Lett. B 780, 200 (2018)

G.A.Korolev, A.V.Dobrovolsky, A.G.Inglessi, G.D.Alkhazov, P.Egelhof, A.Estrade, I.Dillmann, F.Farinon, H.Geissel, S.Ilieva, Y.Ke, A.V.Khanzadeev, O.A.Kiselev, J.Kurcewicz, X.C.Le, Yu.A.Litvinov, G.E.Petrov, A.Prochazka, C.Scheidenberger, L.O.Sergeev, H.Simon, M.Takechi, S.Tang, V.Volkov, A.A.Vorobyov, H.Weick, V.I.Yatsoura

Halo structure of ⁸B determined from intermediate energy proton elastic scattering in inverse kinematics

NUCLEAR REACTIONS ¹H(⁸B, p), E=0.7 GeV/nucleon; measured reaction products, Ep, Ip. ⁸B; deduced σ(θ), root-mean-square (rms) matter and halo radii. Comparison with available data.

doi: 10.1016/j.physletb.2018.03.013
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2018MU18      Phys.Rev. C 98, 064308 (2018)

I.Mukha, L.V.Grigorenko, D.Kostyleva, L.Acosta, E.Casarejos, A.A.Ciemny, W.Dominik, J.A.Duenas, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, A.Gorshkov, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, C.Scheidenberger, P.Sharov, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield, X.Xu, M.V.Zhukov

Deep excursion beyond the proton dripline. I. Argon and chlorine isotope chains

NUCLEAR REACTIONS ⁹Be(³¹Ar, X), E=620 MeV/nucleon, [secondary ³¹Ar beam from fragmentation of 885 MeV/nucleon ³⁶Ar primary beam]; measured proton and heavy-ion spectra, (heavy ion)p- and (heavy ion)pp-coin (proton)(heavy ion)(θ) using double-sided silicon micro-strip detectors for protons and optical time projection chamber for stopped heavy ions at SIS-FRS facility of GSI, a pilot version of the EXPERT (EXotic Particle Emission and Radioactivity by Tracking) setup planned by the Super-FRS Experiment Collaboration of the FAIR project at GSI. ^28,30Cl, ^29,31Ar; deduced proton-unbound states, S(2p) for ^29,31Ar, and S(p) for ²⁸Cl. ^28,30Cl; identified new isotopes, unbound to one-proton emission, deduced ground-state energies. Systematics of level energies, J, π in ^{28,29,30,31,32}Cl. Systematics of odd-even staggering energies in ^21,22,23Ne, ^{22,24,25,26,28,30}Mg, ^25,26Si, ^28,29S, ^{23,25,27,29,31}Al, ^{21,23,25,27,29}Na, which are isotones of ^29,30,31Ar. Comparison with theoretical calculations using core+p and core+p+p cluster models. See also companion paper 2018Gr12 for analyses based on systematics and theoretical calculations.

doi: 10.1103/PhysRevC.98.064308
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2018TU03      Phys.Rev. C 97, 014321 (2018)

X.L.Tu, X.C.Chen, J.T.Zhang, P.Shuai, K.Yue, X.Xu, C.Y.Fu, Q.Zeng, X.Zhou, Y.M.Xing, J.X.Wu, R.S.Mao, L.J.Mao, K.H.Fang, Z.Y.Sun, M.Wang, J.C.Yang, Yu.A.Litvinov, K.Blaum, Y.H.Zhang, Y.J.Yuan, X.W.Ma, X.H.Zhou, H.S.Xu

First application of combined isochronous and Schottky mass spectrometry: Half-lives of fully ionized ⁴⁹Cr²⁴⁺ and ⁵³Fe²⁶⁺ atoms

RADIOACTIVITY ⁴⁹Cr, ⁵³Fe(β⁺)[from ⁹Be(⁵⁸Ni, X), E=430.8 MeV/nucleon followed by separation of fragments using projectile fragment separator RIBLL2]; measured half-life of bare (fully-ionized) ions by isochronous and Schottky mass spectrometry technique using experimental cooler storage ring (CSRe) at the Heavy Ion Research Facility, Lanzhou (HIRFL-CSR). Comparison with half-lives of neutral atoms.

doi: 10.1103/PhysRevC.97.014321
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2018WA07      Phys.Rev. C 97, 034612 (2018)

F.Wamers, J.Marganiec, F.Aksouh, Yu.Aksyutina, H.Alvarez-Pol, T.Aumann, S.Beceiro Novo, C.A.Bertulani, K.Boretzky, M.J.G.Borge, M.Chartier, A.Chatillon, L.V.Chulkov, D.Cortina-Gil, H.Emling, O.Ershova, L.M.Fraile, H.O.U.Fynbo, D.Galaviz, H.Geissel, M.Heil, D.H.H.Hoffmann, J.Hoffman, H.T.Johansson, B.Jonson, C.Karagiannis, O.A.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, T.Le Bleis, C.Lehr, R.Lemmon, Yu.A.Litvinov, K.Mahata, C.Muntz, T.Nilsson, C.Nociforo, W.Ott, V.Panin, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, K.Riisager, C.Rodriguez-Tajes, D.Rossi, D.Savran, G.Schrieder, H.Simon, J.Stroth, K.Summerer, O.Tengblad, S.Typel, H.Weick, M.Wiescher, C.Wimmer

Comparison of electromagnetic and nuclear dissociation of ¹⁷Ne

NUCLEAR REACTIONS H, C, Pb(¹⁷Ne, p¹⁵O), (¹⁷Ne, p¹⁴O), (¹⁷Ne, 2p¹⁵O), (¹⁷Ne, 2p¹⁴O), E=500 MeV/nucleon; measured reaction products, mass spectra of ¹³O, ¹⁴O and ¹⁵O isotopes, (¹⁴O)p-, (¹⁴O)2p-, (¹⁵O)p-, (¹⁵O)2p-coin using lead, carbon, and polyethylene targets and ALADIN-R3B setup at GSI; deduced transverse momentum distributions of ¹⁴O and ¹⁵O, relative energy spectra, inclusive σ, σ(1p) and σ(2p) for fragmentation of ¹⁷Ne in ¹⁴O and ¹⁵o for different targets, electromagnetic dissociation (EMD) cross sections. Electromagnetic and nuclear dissociations. One-proton knockout, and three body ¹⁵O+2p correlations. Comparison of measured cross sections and energy spectra with calculations using three-body ¹⁵O+2p model, and Hartree-Bogoliubov theory. Relevance to ¹⁵O(2p, γ)¹⁷Ne capture reaction in astrophysical rp-process.

doi: 10.1103/PhysRevC.97.034612
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2018XI04      Phys.Lett. B 781, 358 (2018)

Y.M.Xing, K.A.Li, Y.H.Zhang, X.H.Zhou, M.Wang, Yu.A.Litvinov, K.Blaum, S.Wanajo, S.Kubono, G.Martinez-Pinedo, A.Sieverding, R.J.Chen, P.Shuai, C.Y.Fu, X.L.Yan, W.J.Huang, X.Xu, X.D.Tang, H.S.Xu, T.Bao, X.C.Chen, B.S.Gao, J.J.He, Y.H.Lam, H.F.Li, J.H.Liu, X.W.Ma, R.S.Mao, M.Si, M.Z.Sun, X.L.Tu, Q.Wang, J.C.Yang, Y.J.Yuan, Q.Zeng, P.Zhang, X.Zhou, W.L.Zhan, S.Litvinov, G.Audi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, C.Frohlich, T.Rauscher, F.-K.Thielemann, B.H.Sun, Y.Sun, A.C.Dai, F.R.Xu

Mass measurements of neutron-deficient Y, Zr, and Nb isotopes and their impact on rp and νp nucleosynthesis processes

ATOMIC MASSES ^78,79Y, ^80,81Zr, ^82,83,84Nb, ⁸⁴Mo; measured revolution time spectrum; deduced mass excess values and proton separation energies. Comparison with available data.

doi: 10.1016/j.physletb.2018.04.009
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2018XU04      Phys.Rev. C 97, 034305 (2018)

X.-D.Xu, I.Mukha, L.V.Grigorenko, C.Scheidenberger, L.Acosta, E.Casarejos, V.Chudoba, A.A.Ciemny, W.Dominik, J.Duenas-Diaz, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, T.A.Golubkova, A.Gorshkov, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, P.Sharov, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield

Spectroscopy of excited states of unbound nuclei ³⁰Ar and ²⁹Cl

NUCLEAR REACTIONS ⁹Be(³¹Ar, ³⁰Ar), (²⁰Mg, ¹⁹Mg), E=620 MeV/nucleon, [secondary ³¹Ar and ²⁰Mg beams from ⁹Be(³⁶Ar, X), E=885 MeV/nucleon followed by separation of ³¹Ar fragments using FRS at GSI]; measured reaction products, A/Q versus Z yield distributions, proton spectra, trajectories of in-flight decay products ²⁸S+p+p, ²⁸S+p, ¹⁷Ne+p+p, (²⁸Si)pp-, (²⁹Cl)p-, and (¹⁷Ne)pp-coin, (²⁸Si)p(θ) and (¹⁷Ne)p(θ) from 2p-decays of states in ³⁰Ar and ¹⁹Mg. ³⁰Ar, ²⁹Cl, ²⁸S, ¹⁹Mg, ¹⁸Na; deduced ground states and unbound levels, two-proton decay widths of ³⁰Ar and ¹⁹Mg ground states; discussed simultaneous and sequential two-proton decays from ground and excited states of ³⁰Ar and ¹⁹Mg, Thomas-Ehrman effect in ²⁹Cl-²⁹Mg and ³⁰Mg-³⁰Ar mirror partners. Comparison with shell-model predictions.

RADIOACTIVITY ³⁰Ar, ¹⁹Mg(2p)[from ⁹Be(³¹Ar, ³⁰Ar), (²⁰Mg, ¹⁹Mg) reactions at GSI]; measured proton spectra; deduced ground state of ³⁰Ar above the two-proton emission threshold.

doi: 10.1103/PhysRevC.97.034305
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2018ZH29      Phys.Rev. C 98, 014319 (2018)

Y.H.Zhang, P.Zhang, X.H.Zhou, M.Wang, Yu.A.Litvinov, H.S.Xu, X.Xu, P.Shuai, Y.H.Lam, R.J.Chen, X.L.Yan, T.Bao, X.C.Chen, H.Chen, C.Y.Fu, J.J.He, S.Kubono, D.W.Liu, R.S.Mao, X.W.Ma, M.Z.Sun, X.L.Tu, Y.M.Xing, Q.Zeng, X.Zhou, W.L.Zhan, S.Litvinov, K.Blaum, G.Audi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, B.H.Sun, Y.Sun, F.R.Xu

Isochronous mass measurements of T_z = -1 fp-shell nuclei from projectile fragmentation of ⁵⁸Ni

ATOMIC MASSES ⁴³Ti, ^44,44m,45V, ^46,47Cr, ^48,49Mn, ^50,51Fe, ^52,52mCo, ⁵⁴Ni, ⁵⁶Cu; measured time revolution spectra, and mass excesses using isochronous mass spectrometry (IMS) technique using Cooler Storage Ring (CSRm) at HIRFL-Lanzhou. Comparison with AME-2012 evaluation, and with predictions of several mass models. ^52,52mCo, ^44,44mV; deduced precise energies of the isomeric states from direct mass measurements, and compared with previously known values. ^52,52mCo, ⁵²Mn; deduced revised level energies in ⁵²Co from new mass measurements for ^52,52mCo and known level energies in ⁵²Mn mirror nucleus. ⁵⁶Co, ⁵⁶Cu; deduced revised ⁵⁶Cu level energies from new mass measurement for ⁵⁶Cu and using known level energies of ⁵⁶Co mirror nucleus. ⁵²Co, ⁵²Fe, ⁵²Mn, ⁵²Cr; analyzed quadratic and cubic fit coefficients of the isobaric multiplet mass equation (IMME). Discussed impact of new mass measurements on different aspects in nuclear structure. Isotopes produced in ⁹Be(⁵⁸Ni, X), E=467.91 MeV/nucleon reaction, and fragments separated using RIBLL2 separator at Lanzhou.

doi: 10.1103/PhysRevC.98.014319
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2017AT01      J.Phys.(London) G44, 044004 (2017)

D.Atanasov, D.Beck, K.Blaum, C.Borgmann, R.B.Cakirli, T.Eronen, S.George, F.Herfurth, A.Herlert, M.Kowalska, S.Kreim, Y.A.Litvinov, D.Lunney, V.Manea, D.Neidherr, M.Rosenbusch, L.Schweikhard, F.Wienholtz, R.N.Wolf, K.Zuber

Precision mass measurements of cesium isotopes-new entries in the ISOLTRAP chronicles

ATOMIC MASSES ^{123,146,147,148}Cs [from U(p, X)¹⁴⁸Cs/¹⁴⁷Cs/¹⁴⁶Cs/¹³²Cs, E=1.4 GeV]; measured the time-of-flight resonances; deduced time-of- flight ion-cyclotron resonance spectrum, mass excess. Comparison with AME2012 evaluation.

doi: 10.1088/1361-6471/aa5a20
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2017CA12      Phys.Rev. C 95, 064322 (2017)

R.Caballero-Folch, C.Domingo-Pardo, J.Agramunt, A.Algora, F.Ameil, Y.Ayyad, J.Benlliure, M.Bowry, F.Calvino, D.Cano-Ott, G.Cortes, T.Davinson, I.Dillmann, A.Estrade, A.Evdokimov, T.Faestermann, F.Farinon, D.Galaviz, A.R.Garcia, H.Geissel, W.Gelletly, R.Gernhauser, M.B.Gomez Hornillos, C.Guerrero, M.Heil, C.Hinke, R.Knobel, I.Kojouharov, J.Kurcewicz, N.Kurz, Yu.A.Litvinov, L.Maier, J.Marganiec, M.Marta, T.Martinez, F.Montes, I.Mukha, D.R.Napoli, C.Nociforo, C.Paradela, S.Pietri, Zs.Podolyak, A.Prochazka, S.Rice, A.Riego, B.Rubio, H.Schaffner, Ch.Scheidenberger, K.Smith, E.Sokol, K.Steiger, B.Sun, J.L.Tain, M.Takechi, D.Testov, H.Weick, E.Wilson, J.S.Winfield, R.Wood, P.J.Woods, A.Yeremin

β-decay half-lives and β-delayed neutron emission probabilities for several isotopes of Au, Hg, Tl, Pb, and Bi, beyond N=126

RADIOACTIVITY ^204,205,206Au, ^{208,209,210,211}Hg, ^{211,212,213,214,215,216}Tl, ^{215,216,217,218}Pb, ^218,219,220Bi(β^-)[from ⁹Be(²³⁸U, X), E=1 GeV/nucleon using FRS at GSI]; ^210,211Hg, ^{211,212,213,214,215,216}Tl(β^-n); measured Eβ, Iβ, E(n), I(n), β-decay half-lives, beta-delayed neutron emission probabilities using BELEN array of 30 ³He neutron counters. Comparison with previous experimental values, and with several theoretical calculations.

NUCLEAR REACTIONS ⁹Be(²³⁸U, X)²⁰⁰Pt/²⁰¹Pt/²⁰²Pt/²⁰³Pt/²⁰⁴Pt/²⁰⁵Pt/²⁰³Au/²⁰⁴Au/²⁰⁵Au/²⁰⁶Au/²⁰⁷Au/²⁰⁸Au/²⁰⁹Au/²⁰⁶Hg/²⁰⁷Hg/²⁰⁸Hg/²⁰⁹Hg/²¹⁰Hg/²¹¹Hg/²¹²Hg/²¹³Hg/²⁰⁹Tl/²¹⁰Tl/²¹¹Tl/²¹²Tl/²¹³Tl/²¹⁴Tl/²¹⁵Tl/²¹⁶Tl/²¹²Pb/²¹³Pb/²¹⁴Pb/²¹⁵Pb/²¹⁶Pb/²¹⁷Pb/²¹⁸Pb/²¹⁹Pb/²¹⁵Bi/²¹⁶Bi/²¹⁷Bi/²¹⁸Bi/²¹⁹Bi/²²⁰Bi/²²¹Bi/²²²Bi, ²²⁰Po/²²¹Po/²²²Po/²²³Po/²²⁴Po/²²⁵Po/²²⁶Po/²²⁷Po/²²³At/²²³At/²²⁴At/²²⁵At/²²⁶At/²²⁷At/²²⁸At/²²⁹At/²³⁰At/²²⁶Rn/²²⁷Rn/²²⁸Rn/²²⁹Rn/²³⁰Rn/²³¹Rn/²³⁰Fr/²³¹Fr/²³²Fr, E=1 GeV/nucleon; measured reaction products, particle identification (A/Z) plots, number of implants using FRS separator and segmented silicon detectors (SIMBA) at UNILAC-GSI facility.

doi: 10.1103/PhysRevC.95.064322
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2017CH37      Phys.Rev. C 96, 034302 (2017)

X.C.Chen, Q.Zeng, Yu.A.Litvinov, X.L.Tu, P.M.Walker, M.Wang, Q.Wang, K.Yue, Y.H.Zhang

Statistical approaches to lifetime measurements with restricted observation times

RADIOACTIVITY ^94mRu(IT); measured and analyzed half-life of fully-ionized (bare) ions of 8+ isomeric state at 2644 keV using generic statistical methods based on frequentism and Bayesianism, and various filtering and sorting scenarios at the Experimental Cooler Storage Ring (CSRe) in Lanzhou, China; deduced ICC. Comparison with calculations using BrIcc code. Proposed a complete statistical analysis for half-life extraction. See also 2017Ze02 from the same laboratory for details of experimental description.

doi: 10.1103/PhysRevC.96.034302
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2017MA29      Phys.Rev. C 95, 054322 (2017)

V.Manea, P.Ascher, D.Atanasov, A.E.Barzakh, D.Beck, K.Blaum, Ch.Borgmann, M.Breitenfeldt, R.B.Cakirli, T.E.Cocolios, T.Day Goodacre, D.V.Fedorov, V.N.Fedosseev, S.George, F.Herfurth, M.Kowalska, S.Kreim, Yu.A.Litvinov, D.Lunney, B.Marsh, D.Neidherr, M.Rosenbusch, R.E.Rossel, S.Rothe, L.Schweikhard, F.Wienholtz, R.N.Wolf, K.Zuber

Penning-trap mass spectrometry and mean-field study of nuclear shape coexistence in the neutron-deficient lead region

ATOMIC MASSES ^{180,185,188,190}Au, ^197,197m,219At; measured cyclotron frequency ratios with respect to ¹³³Cs⁺ by the time-of-flight ion-cyclotron-resonance (ToF-ICR) technique using ISOLTRAP at ISOLDE-CERN; deduced mass excesses, and compared to values from AME-2012. Isotopes prepared by 1.4-GeV protons incident on UC_x target at CERN's proton synchrotron booster (PSB), followed by selective ionization by resonance-ionization laser ion source (RILIS), and mass separation using magnetic separators at ISOLDE. ¹⁹⁷At; deduced ground state and the energy of the isomer. Systematics of S(2n) and rms charge radii for N=100-114, Au and Hg isotopes.

doi: 10.1103/PhysRevC.95.054322
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2017RO22      Phys.Rev. C 96, 034303 (2017)

J.L.Rodriguez-Sanchez, J.Benlliure, C.A.Bertulani, J.Vargas, Y.Ayyad, H.Alvarez-Pol, J.Atkinson, T.Aumann, S.Beceiro Novo, K.Boretzky, M.Caamano, E.Casarejos, D.Cortina-Gil, J.Diaz-Cortes, P.Diaz Fernandez, A.Estrade, H.Geissel, A.Kelic-Heil, Yu.A.Litvinov, M.Mostazo, C.Paradela, D.Perez-Loureiro, S.Pietri, A.Prochazka, M.Takechi, H.Weick, J.S.Winfield

Knockout and fragmentation reactions using a broad range of tin isotopes

NUCLEAR REACTIONS C(¹¹²Sn, X)¹⁰³Rh/¹⁰⁴Rh/¹⁰⁵Rh/¹⁰⁶Rh/¹⁰⁷Rh/¹⁰⁵Pd/¹⁰⁶Pd/¹⁰⁷Pd/¹⁰⁸Pd/¹⁰⁷Ag/¹⁰⁸Ag/¹⁰⁹Ag/¹¹⁰Ag/¹⁰⁹Cd/¹¹⁰Cd/¹¹¹Cd, E=1 GeV/nucleon; measured production cross sections of the most neutron-rich residues in the fragmentation of ¹¹²Sn beam at GSI. C(¹²⁴Sn, ¹²³Sn), (¹²⁴Sn, ¹²³In), (¹²⁰Sn, ¹¹⁹Sn), (¹²⁰Sn, ¹¹⁹In), (¹²⁰Sn, ¹¹⁸Cd), (¹¹²Sn, ¹¹¹Sn), (¹¹²Sn, ¹¹¹In), (¹¹⁰Sn, ¹⁰⁹Sn), (¹¹⁰Sn, ¹⁰⁹In), (¹¹⁰Sn, ¹⁰⁸Cd), E=1 GeV/nucleon; measured One- and two-nucleon-removal cross sections. Comparison with previous experimental data and with Glauber model calculations.

doi: 10.1103/PhysRevC.96.034303
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2017SO23      At.Data Nucl.Data Tables 119, 1 (2017)

A.Sobiczewski, Yu.A.Litvinov, M.Palczewski

Detailed illustration of the accuracy of currently used nuclear-mass models

NUCLEAR STRUCTURE Z<112; calculated rms radii, masses; deduced mass models accuracy.

doi: 10.1016/j.adt.2017.05.001
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2017TU01      Phys.Rev. C 95, 014610 (2017)

X.L.Tu, A.Kelic-Heil, Yu.A.Litvinov, Zs.Podolyak, Y.H.Zhang, W.J.Huang, H.S.Xu, K.Blaum, F.Bosch, R.J.Chen, X.C.Chen, C.Y.Fu, B.S.Gao, Z.Ge, Z.G.Hu, D.W.Liu, S.A.Litvinov, X.W.Ma, R.S.Mao, B.Mei, P.Shuai, B.H.Sun, Y.Sun, Z.Y.Sun, P.M.Walker, M.Wang, N.Winckler, J.W.Xia, G.Q.Xiao, Y.M.Xing, X.Xu, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, Q.Zeng, W.Zhang, H.W.Zhao, T.C.Zhao, X.H.Zhou

Application of isochronous mass spectrometry for the study of angular momentum population in projectile fragmentation reactions

NUCLEAR REACTIONS ⁹Be(⁷⁸Kr, X)⁵³Fe/^53mFe/⁵³Co/^53mCo, E=479.4 MeV/nucleon; measured revolution time spectra of the isomeric and ground states of ⁵³Co and ⁵³Fe using isochronous mass spectrometry (IMS) technique at HIRFL-CSR-Lanzhou facility; deduced isomeric ratios for the 19/2 state, and compared with the predictions of theoretical calculations using ABRABLA07 code. ⁵³Fe; calculated production probability of ⁵³Fe versus spin using ABRABLA07 code for the ⁵⁸Ni, ⁷⁸Kr, ⁸⁴Kr, and ¹¹²Sn projectiles.

doi: 10.1103/PhysRevC.95.014610
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2017ZA09      Phys.Rev. C 96, 034617 (2017)

J.C.Zamora, T.Aumann, S.Bagchi, S.Bonig, M.Csatlos, I.Dillmann, C.Dimopoulou, P.Egelhof, V.Eremin, T.Furuno, H.Geissel, R.Gernhauser, M.N.Harakeh, A.-L.Hartig, S.Ilieva, N.Kalantar-Nayestanaki, O.Kiselev, H.Kollmus, C.Kozhuharov, A.Krasznahorkay, Th.Kroll, M.Kuilman, S.Litvinov, Yu.A.Litvinov, M.Mahjour-Shafiei, M.Mutterer, D.Nagae, M.A.Najafi, C.Nociforo, F.Nolden, U.Popp, C.Rigollet, S.Roy, C.Scheidenberger, M.von Schmid, M.Steck, B.Streicher, L.Stuhl, M.Thurauf, T.Uesaka, H.Weick, J.S.Winfield, D.Winters, P.J.Woods, T.Yamaguchi, K.Yue, J.Zenihiro

Nuclear-matter radius studies from ⁵⁸Ni (α, α) experiments at the GSI Experimental Storage Ring with the EXL facility

NUCLEAR REACTIONS ⁴He(⁵⁸Ni, α), (⁵⁸Ni, α'), E=100, 150 MeV/nucleon; measured scattered α-particles, differential σ(θ, E) using stored ion beams and a UHV compatible detection system with a double-sided silicon strip detector (DSSD) at the heavy-ion experimental storage ring (ESR) at GSI facility; deduced optical model potential parameters, probability density distribution, point-density distributions of ⁵⁸Ni, nuclear-matter radius, and compared with Skyrme-Hartree-Fock calculation (SHF), half-density radius, diffuseness of a Fermi-shape, rms radius, total-matter distribution, point-matter distribution. Comparison with experimental data.

doi: 10.1103/PhysRevC.96.034617
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2017ZE02      Phys.Rev. C 96, 031303 (2017)

Q.Zeng, M.Wang, X.H.Zhou, Y.H.Zhang, X.L.Tu, X.C.Chen, X.Xu, Yu.A.Litvinov, H.S.Xu, K.Blaum, R.J.Chen, C.Y.Fu, Z.Ge, W.J.Huang, H.F.Li, J.H.Liu, B.Mei, P.Shuai, M.Si, B.H.Sun, M.Z.Sun, Q.Wang, G.Q.Xiao, Y.M.Xing, T.Yamaguchi, X.L.Yan, J.C.Yang, Y.J.Yuan, Y.D.Zang, P.Zhang, W.Zhang, X.Zhou

Half-life measurement of short-lived ^94m₄₄Ru⁴⁴⁺ using isochronous mass spectrometry

RADIOACTIVITY ^94mRu(IT)[from ⁹Be(¹¹²Sn, X), E=376.42 MeV/nucleon]; measured half-life of the fully-ionized (bare) ions of 8+ isomeric state at 2644 keV at the Experimental Cooler Storage Ring (CSRe) in Heavy Ion Research Facility (HIRFL), Lanzhou; deduced ICC. Comparison with calculations using BrIcc code, and with theoretical predictions. See also 2017Ch37 from the same laboratory for a detailed statistical analysis for extraction of half-life from experimental data.

ATOMIC MASSES ⁹⁴Ru, ^94mRu; measured mass excesses of the isomer and the ground state of ⁹⁴Ru using isochronous mass spectrometry (IMS) at Heavy Ion Research Facility (HIRFL), Lanzhou, and compared with AME-2016.

doi: 10.1103/PhysRevC.96.031303
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2017ZH12      Phys.Lett. B 767, 20 (2017)

P.Zhang, X.Xu, P.Shuai, R.J.Chen, X.L.Yan, Y.H.Zhang, M.Wang, Yu.A.Litvinov, K.Blaum, H.S.Xu, T.Bao, X.C.Chen, H.Chen, C.Y.Fu, J.J.He, S.Kubono, Y.H.Lam, D.W.Liu, R.S.Mao, X.W.Ma, M.Z.Sun, X.L.Tu, Y.M.Xing, J.C.Yang, Y.J.Yuan, Q.Zeng, X.Zhou, X.H.Zhou, W.L.Zhan, S.Litvinov, G.Audi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, B.H.Sun, Y.Sun, F.R.Xu

High-precision Q_EC values of superallowed 0⁺ → 0⁺β-emitters ⁴⁶Cr, ⁵⁰Fe and ⁵⁴Ni

ATOMIC MASSES ⁴²Ti, ⁴⁶Cr, ⁴⁸Mn, ⁵⁰Fe, ⁵⁴Ni; measured the revolution time spectrum; deduced precision mass excesses, corrected log ft values. Comparison with AME12 evaluated data.

doi: 10.1016/j.physletb.2017.01.039
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2016BU27      Acta Phys.Pol. B47, 627 (2016)

P.A.Butler, R.D.Page, K.Blaum, M.Grieser, T.Davinson, P.J.Woods, K.Flanagan, S.J.Freeman, I.H.Lazarus, Yu.A.Litvinov, R.Raabe, E.Siesling, F.Wenander

TSR: A Storage Ring for HIE-ISOLDE

doi: 10.5506/APhysPolB.47.627
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2016CA25      Phys.Rev.Lett. 117, 012501 (2016)

R.Caballero-Folch, C.Domingo-Pardo, J.Agramunt, A.Algora, F.Ameil, A.Arcones, Y.Ayyad, J.Benlliure, I.N.Borzov, M.Bowry, F.Calvino, D.Cano-Ott, G.Cortes, T.Davinson, I.Dillmann, A.Estrade, A.Evdokimov, T.Faestermann, F.Farinon, D.Galaviz, A.R.Garcia, H.Geissel, W.Gelletly, R.Gernhauser, M.B.Gomez Hornillos, C.Guerrero, M.Heil, C.Hinke, R.Knobel, I.Kojouharov, J.Kurcewicz, N.Kurz, Yu.A.Litvinov, L.Maier, J.Marganiec, T.Marketin, M.Marta, T.Martinez, G.Martinez-Pinedo, F.Montes, I.Mukha, D.R.Napoli, C.Nociforo, C.Paradela, S.Pietri, Zs.Podolyak, A.Prochazka, S.Rice, A.Riego, B.Rubio, H.Schaffner, Ch.Scheidenberger, K.Smith, E.Sokol, K.Steiger, B.Sun, J.L.Tain, M.Takechi, D.Testov, H.Weick, E.Wilson, J.S.Winfield, R.Wood, P.Woods, A.Yeremin

First Measurement of Several β-Delayed Neutron Emitting Isotopes Beyond N = 126

RADIOACTIVITY ^204,205,206Au, ^{208,209,210,211}Hg, ^211,212,213Tl, ^214,215,216Tl, ^{215,216,217,218}Pb, ^218,219,220Bi(β^-n) [from Be(²³⁸U, X), E=1 GeV/nucleon]; measured decay products, Eβ, Iβ, En, In, β-n coinc.; deduced T_1/2, neutron branching ratios. Comparison with available data, theoretical calculations.

doi: 10.1103/PhysRevLett.117.012501
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2016CI05      Yuan.Wul.Ping. 33, 221 (2016); Nucl.Phys.Rev. 33, 221 (2016)

A.A.Ciemny, C.Mazzocchi, W.Dominik, Z.Janas, M.Pfutzner, M.Pomorski, L.Acosta, S.Baraeva, E.Casarejos, J.Duenas-Diaz, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, A.Gorshkov, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, I.Mukha, C.Nociforo, A.K.Orduz, S.Pietri, A.Prochazka, A.M.Sanchez-Benitez, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.Tanaka, H.Weick, J.S.Winfield

β-delayed Multi-particle Emission From ³¹Ar

RADIOACTIVITY ³¹Ar(β⁺p), (β⁺2p), (β⁺3p); measured decay products, Ep, Ip; deduced beta-delayed three proton emission branching ratio.

doi: 10.11804/NuclPhysRev.33.02.221
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2016KA37      Phys.Rev.Lett. 117, 102501 (2016)

R.Kanungo, W.Horiuchi, G.Hagen, G.R.Jansen, P.Navratil, F.Ameil, J.Atkinson, Y.Ayyad, D.Cortina-Gil, I.Dillmann, A.Estrade, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, M.Kimura, R.Knobel, J.Kurcewicz, Yu.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, Y.Suzuki, M.Takechi, J.Tanaka, I.Tanihata, S.Terashima, J.Vargas, H.Weick, J.S.Winfield

Proton Distribution Radii of ^12-19C Illuminate Features of Neutron Halos

NUCLEAR REACTIONS Be(²⁰Ne, X), (⁴⁰Ar, X)¹²C/¹³C/¹⁴C/¹⁵/¹⁶C/¹⁷C/¹⁸C/¹⁹C, E=1 GeV/nucleon; measured reaction products; deduced σ, root-mean-square proton and matter radii, neutron skin thickness. Comparison with ab initio calculations.

doi: 10.1103/PhysRevLett.117.102501
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2016KN03      Eur.Phys.J. A 52, 138 (2016)

R.Knobel, M.Diwisch, H.Geissel, Yu.A.Litvinov, Z.Patyk, W.R.Plass, C.Scheidenberger, B.Sun, H.Weick, F.Bosch, D.Boutin, L.Chen, C.Dimopoulou, A.Dolinskii, B.Franczak, B.Franzke, M.Hausmann, C.Kozhuharov, J.Kurcewicz, S.A.Litvinov, M.Matos, M.Mazzocco, G.Munzenberg, S.Nakajima, C.Nociforo, F.Nolden, T.Ohtsubo, A.Ozawa, J.Stadlmann, M.Steck, T.Suzuki, P.M.Walker, M.Winkler, T.Yamaguchi

New results from isochronous mass measurements of neutron-rich uranium fission fragments with the FRS-ESR-facility at GSI

NUCLEAR REACTIONS ⁹Be(²³⁸U, x), E=410-415 Mev/nucleon; measured reaction products; deduced mass excess for Z=28-62. Compared to AME2012 and other data.

ATOMIC MASSES ⁶⁸Ge, ⁹¹Se, ⁹⁴Br, ¹⁰⁵Y, ^106,107Zr, ¹¹⁰Nb, ¹¹³Mo, ^114,115Tc, ¹¹⁸Ru, ¹²¹Rh, ^123,124Pd, ¹²⁶Ag, ¹³⁸Sb, ^141,143I, ^149,150Ba, ^150,151La, ¹⁵⁴Ce, ⁹³Br, ¹⁰⁹Nb, ¹¹⁷Ru, ¹²⁵Ag, ¹³⁷Sb, ¹⁴⁰I; measured correlation between the spread of the revolution time and the number of turns recorded in the ring; deduced mass-excess values.

doi: 10.1140/epja/i2016-16138-6
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2016MA26      Phys.Rev. C 93, 045811 (2016)

J.Marganiec, S.Beceiro Novo, S.Typel, C.Langer, C.Wimmer, H.Alvarez-Pol, T.Aumann, K.Boretzky, E.Casarejos, A.Chatillon, D.Cortina-Gil, U.Datta-Pramanik, Z.Elekes, Z.Fulop, D.Galaviz, H.Geissel, S.Giron, U.Greife, F.Hammache, M.Heil, J.Hoffman, H.Johansson, O.Kiselev, N.Kurz, K.Larsson, T.Le Bleis, Yu.A.Litvinov, K.Mahata, C.Muentz, C.Nociforo, W.Ott, S.Paschalis, R.Plag, W.Prokopowicz, C.Rodriguez-Tajes, D.M.Rossi, H.Simon, M.Stanoiu, J.Stroth, K.Summerer, A.Wagner, F.Wamers, H.Weick, M.Wiescher

Coulomb dissociation of ²⁷P at 500 MeV/u

NUCLEAR REACTIONS Pb(²⁷P, p²⁶Si), E=491.3 MeV/nucleon, [²⁷P secondary beam from ⁹Be(³⁶Ar, X), E=615.5 MeV/nucleon using FRS at GSI]; measured breakup fragments, E(p), I(p), Eγ, Iγ, (fragment)γ-coin using DSSSDs, multi-wire drift Chambers, and spherical 4π array of 162 NaI(Tl) crystals. ²⁷P; deduced invariant-mass spectrum for the Coulomb dissociation (CD) of ²⁷P, proton resonance energies, Coulomb excitation σ, levels, multipolarity, J, π, astrophysical S factor. ²⁶Si(p, γ), T₉=0.01-10; deduced thermonuclear reaction rates. Comparisons with previous experimental data, structure of ²⁷Mg mirror nucleus, and theoretical calculations.

doi: 10.1103/PhysRevC.93.045811
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2016MA42      Phys.Lett. B 759, 200 (2016)

J.Marganiec, F.Wamers, F.Aksouh, Yu.Aksyutina, H.Alvarez-Pol, T.Aumann, S.Beceiro Novo, C.A.Bertulani, K.Boretzky, M.J.G.Borge, M.Chartier, A.Chatillon, L.V.Chulkov, D.Cortina-Gil, H.Emling, O.Ershova, L.M.Fraile, H.O.U.Fynbo, D.Galaviz, H.Geissel, M.Heil, D.H.H.Hoffmann, J.Hoffmann, H.T.Johansson, B.Jonson, C.Karagiannis, O.A.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, T.Le Bleis, R.Lemmon, Yu.A.Litvinov, K.Mahata, C.Muntz, T.Nilsson, C.Nociforo, G.Nyman, W.Ott, V.Panin, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, C.Rodriguez-Tajes, D.Rossi, K.Riisager, D.Savran, G.Schrieder, H.Simon, J.Stroth, K.Summerer, O.Tengblad, S.Typel, H.Weick, M.Wiescher, C.Wimmer

Coulomb and nuclear excitations of narrow resonances in ¹⁷Ne

NUCLEAR REACTIONS H, C, Pb(¹⁷Ne, 2p), E=500 MeV/nucleon; measured reaction products, Ep, Ip. ¹⁷Ne; deduced σ(E), excitation energies and σ for resolved resonances in ¹⁷Ne, B(E2). Comparison with available data.

doi: 10.1016/j.physletb.2016.05.073
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2016ME15      Phys.Rev. C 94, 044615 (2016)

B.Mei, H.S.Xu, Y.H.Zhang, M.Wang, X.L.Tu, K.-H.Schmidt, Yu.A.Litvinov, Z.Y.Sun, X.H.Zhou, Y.J.Yuan, K.Blaum, M.V.Ricciardi, A.Kelic-Heil, R.S.Mao, Z.G.Hu, P.Shuai, Y.D.Zang, X.W.Ma, X.Y.Zhang, J.W.Xia, G.Q.Xiao, Z.Y.Guo, J.C.Yang, X.H.Zhang, X.Xu, X.L.Yan, W.Zhang, W.L.Zhan

Odd-even staggering in yields of neutron-deficient nuclei produced by projectile fragmentation

NUCLEAR REACTIONS ⁹Be(⁵⁸Ni, X), E=463 MeV/nucleon; measured neutron-deficient fragment, revolution-time spectrum, fragment yields and particle-emission threshold energy (PETE) of T_z=-3/2 and -1 nuclei using fragment separator RIBLL2 and experimental Cooler Storage Ring (CSRe) at HIRFL-Lanzhou facility; deduced odd-even staggering (OES) of fragment yields.

doi: 10.1103/PhysRevC.94.044615
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2016SU16      Phys.Rev. C 94, 011602 (2016)

Y.Suzuki, W.Horiuchi, S.Terashima, R.Kanungo, F.Ameil, J.Atkinson, Y.Ayyad, D.Cortina-Gil, I.Dillmann, A.Estrade, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, R.Knoebel, J.Kurcewicz, Yu.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, M.Takechi, J.Tanaka, I.Tanihata, J.Vargas, H.Weick, J.S.Winfield

Parameter-free calculation of charge-changing cross sections at high energy

NUCLEAR REACTIONS ¹²C(¹²C, X), E=937, 943 MeV/nucleon; ¹²C(¹³C, X), E=828 MeV/nucleon; ¹²C(¹⁴C, X), E=900 MeV/nucleon; ¹H(¹²C, X), E=926 MeV/nucleon; ¹H(¹³C, X), E=815 MeV/nucleon; ¹H(¹⁴C, X), E=889 MeV/nucleon; ¹H(¹⁵C, X), E=896 MeV/nucleon; ¹H(¹⁶C, X), E=897 MeV/nucleon; ¹H(¹⁷C, X), E=970 MeV/nucleon; ¹H(¹⁸C, X), (¹⁹C, X), E=886 MeV/nucleon; calculated charge-changing σ (CCCS), proton, neutron, and matter radii using Glauber and eikonal formalism and approximations. Comparison with recent new high-energy data measured at the FRS-GSI facility.

doi: 10.1103/PhysRevC.94.011602
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2016TA07      Prog.Theor.Exp.Phys. 2016, 043D05 (2016)

I.Tanihata, S.Terashima, R.Kanungo, F.Ameil, J.Atkinson, Y.Ayyad, D.Cortina-Gil, I.Dillmann, A.Estrade, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, R.Knoebel, J.Kurcewicz, Yu.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, M.Takechi, J.Tanaka, H.Toki, J.Vargas, J.S.Winfield, H.Weick

Observation of large enhancements of charge exchange cross sections with neutron-rich carbon isotopes

NUCLEAR REACTIONS C, H(C, X)¹²N/¹³N/¹⁴N/¹⁵N/¹⁶N/¹⁷N/¹⁸N/¹⁹N, E∼950 MeV/nucleon; measured reaction products; deduced σ, Gamow-Teller and/or Fermi transition strengths.

doi: 10.1093/ptep/ptw034
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2016TU01      Nucl.Phys. A945, 89 (2016)

X.L.Tu, Yu.A.Litvinov, K.Blaum, B.Mei, B.H.Sun, Y.Sun, M.Wang, H.S.Xu, Y.H.Zhang

Indirect mass determination for the neutron-deficient nuclides ⁴⁴V, ⁴⁸Mn, ⁵²Co and ⁵⁶Cu

RADIOACTIVITY ⁴⁴V, ⁴⁸Mn, ⁵²Co, ⁵⁶Cu(β⁺), (EC), (β⁺p); calculated β-delayed proton spectroscopic data; deduced mass excess, Q using mirror symmetry. Compared with other calculations of mass excess and data.

doi: 10.1016/j.nuclphysa.2015.09.016
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2016XU08      Yuan.Wul.Ping. 33, 197 (2016); Nucl.Phys.Rev. 33, 197 (2016)

X.Xu, I.Mukha, L.Acosta, E.Casarejos, A.A.Ciemny, W.Dominik, J.Duenas-Diaz, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, H.Geissel, A.Fomichev, T.A.Golubkova, A.Gorshkov, L.V.Grigorenko, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, C.Scheidenberger, P.Sharov, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield

Revisit to Two-Proton Radioactivity of ¹⁹Mg and Observation of Two-Proton Decay of ³⁰Ar

RADIOACTIVITY ¹⁹Mg, ³⁰Ar(2p); measured decay products, Ep, Ip; deduced energies, excited states.

doi: 10.11804/NuclPhysRev.33.02.197#
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2016XU10      Phys.Rev.Lett. 117, 182503 (2016)

X.Xu, P.Zhang, P.Shuai, R.J.Chen, X.L.Yan, Y.H.Zhang, M.Wang, Yu.A.Litvinov, H.S.Xu, T.Bao, X.C.Chen, H.Chen, C.Y.Fu, S.Kubono, Y.H.Lam, D.W.Liu, R.S.Mao, X.W.Ma, M.Z.Sun, X.L.Tu, Y.M.Xing, J.C.Yang, Y.J.Yuan, Q.Zeng, X.Zhou, X.H.Zhou, W.L.Zhan, S.Litvinov, K.Blaum, G.Audi, T.Uesaka, Y.Yamaguchi, T.Yamaguchi, A.Ozawa, B.H.Sun, Y.Sun, A.C.Dai, F.R.Xu

Identification of the Lowest T=2, J^π = 0⁺ Isobaric Analog State in ⁵²Co and Its Impact on the Understanding of β-Decay Properties of ⁵²Ni

NUCLEAR REACTIONS Be(⁵⁸Ni, X)⁵²Co, E=467.91 MeV/nucleon; measured reaction products, TOF; deduced atomic masses, energy of T=2 isobaric analog state, level scheme. Comparison with shell model calculations using GXPF1J interaction.

doi: 10.1103/PhysRevLett.117.182503
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Data from this article have been entered in the XUNDL database. For more information, click here.

2016ZA08      Phys.Lett. B 763, 16 (2016)

J.C.Zamora, T.Aumann, S.Bagchi, S.Bonig, M.Csatlos, I.Dillmann, C.Dimopoulou, P.Egelhof, V.Eremin, T.Furuno, H.Geissel, R.Gernhauser, M.N.Harakeh, A.-L.Hartig, S.Ilieva, N.Kalantar-Nayestanaki, O.Kiselev, H.Kollmus, C.Kozhuharov, A.Krasznahorkay, Th.Kroll, M.Kuilman, S.Litvinov, Yu.A.Litvinov, M.Mahjour-Shafiei, M.Mutterer, D.Nagae, M.A.Najafi, C.Nociforo, F.Nolden, U.Popp, C.Rigollet, S.Roy, C.Scheidenberger, M.von Schmid, M.Steck, B.Streicher, L.Stuhl, M.Thurauf, T.Uesaka, H.Weick, J.S.Winfield, D.Winters, P.J.Woods, T.Yamaguchi, K.Yue, J.Zenihiro

First measurement of isoscalar giant resonances in a stored-beam experiment

NUCLEAR REACTIONS ⁴He(⁵⁸Ni, α'), E=100 MeV/nucleon; measured reaction products, Eα, Iα. ⁵⁸Ni; deduced σ(θ, E), monopole contribution of the energy-weighted sum rule (EWSR).

doi: 10.1016/j.physletb.2016.10.015
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2368. Data from this article have been entered in the XUNDL database. For more information, click here.

2016ZH60      Phys.Scr. 91, 073002 (2016)

Y.H.Zhang, Y.A.Litvinov, T.Uesaka, H.S.Xu

Storage ring mass spectrometry for nuclear structure and astrophysics research

ATOMIC MASSES ²³⁸U, ²⁰⁹Bi, ²⁰⁸Hg, ¹⁹⁷Au, ¹⁵²Sm, ^78,84Kr, ⁵⁸Ni, ¹¹²Sn; analyzed available data on nuclear masses, mass excess. Compared with AME-2012 and published calculations.

doi: 10.1088/0031-8949/91/7/073002
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2015AK02      Phys.Rev. C 91, 031301 (2015)

A.Akber, M.W.Reed, P.M.Walker, Yu.A.Litvinov, G.J.Lane, T.Kibedi, K.Blaum, F.Bosch, C.Brandau, J.J.Carroll, D.M.Cullen, I.J.Cullen, A.Y.Deo, B.Detwiler, C.Dimopoulou, G.D.Dracoulis, F.Farinon, H.Geissel, E.Haettner, M.Heil, R.S.Kempley, R.Knobel, C.Kozhuharov, J.Kurcewicz, N.Kuzminchuk, S.Litvinov, Z.Liu, R.Mao, C.Nociforo, F.Nolden, W.R.Plass, Zs.Podolyak, A.Prochazka, C.Scheidenberger, D.Shubina, M.Steck, Th.Stohlker, B.Sun, T.P.D.Swan, G.Trees, H.Weick, N.Winckler, M.Winkler, P.J.Woods, T.Yamaguchi

Increased isomeric lifetime of hydrogen-like ^192mOs

RADIOACTIVITY ^192mOs(IT)[from ⁹Be(¹⁹⁷Au, X), E=478-492 MeV/nucleon]; measured half-life of the highly-charged stored ions using Schottky mass spectrometry in Experimental Storage Ring (ESR) of the isomeric state of ¹⁹²Os at UNILAC and SIS-18 heavy-ion accelerators of GSI. Discussed increased half-life of the hydrogen-like ions of isomeric state as compared to that of the neutral ions.

doi: 10.1103/PhysRevC.91.031301
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Data from this article have been entered in the XUNDL database. For more information, click here.

2015AT03      Phys.Rev.Lett. 115, 232501 (2015)

D.Atanasov, P.Ascher, K.Blaum, R.B.Cakirli, T.E.Cocolios, S.George, S.Goriely, F.Herfurth, H.-T.Janka, O.Just, M.Kowalska, S.Kreim, D.Kisler, Y.A.Litvinov, D.Lunney, V.Manea, D.Neidherr, M.Rosenbusch, L.Schweikhard, A.Welker, F.Wienholtz, R.N.Wolf, K.Zuber

Precision Mass Measurements of ^129-131Cd and Their Impact on Stellar Nucleosynthesis via the Rapid Neutron Capture Process

ATOMIC MASSES ^129,130,131Cd; measured TOF-ICR resonance spectra; deduced masses, corrections to the existing values, neutron separation energies. Penning-trap spectrometer ISOLTRAP at ISOLDE/CERN.

doi: 10.1103/PhysRevLett.115.232501
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2015DO10      Phys.Scr. T166, 014007 (2015)

D.T.Doherty, P.J.Woods, Y.A.Litvinov, M.A.Najafi, S.Bagchi, S.Bishop, M.Bo, C.Brandau, T.Davinson, I.Dillmann, A.Estrade, P.Egelhof, A.Evdokimov, A.Gumberidze, M.Heil, C.Lederer, S.A.Litvinov, G.Lotay, N.Kalantar-Nayestanaki, O.Kiselev, C.Kozhuharov, T.Kroll, M.Mahjour-Shafiei, M.Mutterer, F.Nolden, N.Petridis, U.Popp, R.Reifarth, C.Rigollet, S.Roy, M.Steck, T.Stohlker, B.Streicher, S.Trotsenko, M.v.Schmid, X.L.Yan, J.C.Zamora

Nuclear transfer reaction measurements at the ESR-for the investigation of the astrophysical ¹⁵O(α, γ)¹⁹Ne reaction

NUCLEAR REACTIONS ¹H(²⁰Ne, d), E=50 MeV/nucleon; measured reaction products; deduced energy levels, J, π. Comparison with available data.

doi: 10.1088/0031-8949/2015/T166/014007
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2015GL04      Phys.Scr. T166, 014008 (2015)

J.Glorius, Y.A.Litvinov, R.Reifarth

Neutron-induced reaction studies using stored ions

doi: 10.1088/0031-8949/2015/T166/014008
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2015LI20      Phys.Rev. C 91, 064309 (2015)

A.A.Lis, C.Mazzocchi, W.Dominik, Z.Janas, M.Pfutzner, M.Pomorski, L.Acosta, S.Baraeva, E.Casarejos, J.Duenas-Diaz, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, A.Gorshkov, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, I.Mukha, C.Nociforo, A.K.Orduz, S.Pietri, A.Prochazka, A.M.Sanchez-Benitez, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.Tanaka, H.Weick, J.S.Winfield

β-delayed three-proton decay of ³¹Ar

RADIOACTIVITY ³¹Ar(β⁺p), (β⁺2p), (β⁺3p)[from ⁹Be(³⁶Ar, X), E=880 MeV using FRS separator at GSI]; measured Ep, Ip, (³¹Ar)p-coin using gaseous optical-readout time-projection chamber (OTPC), TOF and energy loss information; deduced branching ratios for β⁺p, β⁺2p and β⁺3p decay modes, Gamow-Teller strength distribution. Comparison with previous experimental results.

doi: 10.1103/PhysRevC.91.064309
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Data from this article have been entered in the XUNDL database. For more information, click here.

2015MA09      Eur.Phys.J. A 51, 9 (2015)

J.Marganiec, F.Wamers, F.Aksouh, Yu.Aksyutina, H.Alvarez-Pol, T.Aumann, S.Beceiro Novo, K.Boretzky, M.J.G.Borge, M.Chartier, A.Chatillon, L.V.Chulkov, D.Cortina-Gil, H.Emling, O.Ershova, L.M.Fraile, H.O.U.Fynbo, D.Galaviz, H.Geissel, M.Heil, D.H.H.Hoffmann, J.Hoffmann, H.T.Johansson, B.Jonson, C.Karagiannis, O.A.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, T.Le Bleis, R.Lemmon, Yu.A.Litvinov, K.Mahata, C.Muntz, T.Nilsson, C.Nociforo, G.Nyman, W.Ott, V.Panin, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, C.Rodriguez-Tajes, D.Rossi, K.Riisager, D.Savran, G.Schrieder, H.Simon, J.Stroth, K.Summerer, O.Tengblad, H.Weick, M.Wiescher, C.Wimmer, M.V.Zhukov

Studies of continuum states in ¹⁶Ne using three-body correlation techniques

NUCLEAR REACTIONS C(¹⁷Ne, n¹⁶Ne), E≈500 MeV/nucleon; measured reaction products using Si-strip detectors and separation by magnetic field of ALADIN magnet. ¹⁶N deduced resonance energies, widths of different channels, relative energy spectrum of the channels, levels, J, π, two- and three-body correlations.

doi: 10.1140/epja/i2015-15009-0
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2015MA23      Acta Phys.Pol. B46, 473 (2015)

J.Marganiec, S.Beceiro Novo, S.Typel, C.Wimmer, H.Alvarez-Pol, T.Aumann, K.Boretzky, E.Casarejos, A.Chatillon, D.Cortina Gil, U.Datta-Pramanik, Z.Elekes, Z.Fulop, D.Galaviz, H.Geissel, S.Giron, U.Greife, F.Hammache, M.Heil, J.Hoffman, H.Johansson, O.Kiselev, N.Kurz, K.Larsson, T.Le Bleis, Y.Litvinov, K.Mahata, C.Muentz, C.Nociforo, W.Ott, S.Paschalis, R.Plag, W.Prokopowicz, C.Rodriguez-Tajes, D.Rossi, H.Simon, M.Stanoiu, J.Stroth, K.Summerer, A.Wagner, F.Wamers, H.Weick

Coulomb Dissociation Experiment of ²⁷P

NUCLEAR REACTIONS C, Pb(²⁷P, X)²⁵Si/²⁶Si, E=500 MeV/nucleon; measured reaction fragment. ²⁷P; deduced mass spectrum, momenta, the excitation energy for σ reconstruction.

doi: 10.5506/APhysPolB.46.473
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2015ME07      Phys.Rev. C 92, 035803 (2015)

B.Mei, T.Aumann, S.Bishop, K.Blaum, K.Boretzky, F.Bosch, C.Brandau, H.Brauning, T.Davinson, I.Dillmann, C.Dimopoulou, O.Ershova, Z.Fulop, H.Geissel, J.Glorius, G.Gyurky, M.Heil, F.Kappeler, A.Kelic-Heil, C.Kozhuharov, C.Langer, T.Le Bleis, Y.Litvinov, G.Lotay, J.Marganiec, G.Munzenberg, F.Nolden, N.Petridis, R.Plag, U.Popp, G.Rastrepina, R.Reifarth, B.Riese, C.Rigollet, C.Scheidenberger, H.Simon, K.Sonnabend, M.Steck, T.Stohlker, T.Szucs, K.Summerer, G.Weber, H.Weick, D.Winters, N.Winters, P.Woods, Q.Zhong

First measurement of the ⁹⁶Ru(p, γ)⁹⁷Rh cross section for the p process with a storage ring

NUCLEAR REACTIONS ¹H(⁹⁶Ru, γ)⁹⁷Rh, E=9, 10, 11 MeV/nucleon; measured particle spectra in different charge states, x-ray and γ spectra, σ(E) using stored heavy ions in storage ring ESR at GSI; deduced astrophysical S factors and stellar reaction rates over a range of T₉=0.5-19. Comparison with predictions from standard NON-SMOKER code and TALYS-1.4 code using different γ-ray strength functions from HFB, Brink-Axel Lorentzian (BAL), and Kopecky-Uhl, and different density models of constant temperature (CT), BSFG, generalized superfluid (GS), and Hartree-Fock-Bogolyubov (HFB). Recommended REACLIB parameters for the reactivity of ⁹⁶Ru(p, γ)⁹⁷Rh, and ⁹⁷Rh(γ, p)⁹⁶Ru reactions. Relevance to p-process network calculations.

doi: 10.1103/PhysRevC.92.035803
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2272.

2015MU13      Phys.Rev.Lett. 115, 202501 (2015)

I.Mukha, L.V.Grigorenko, X.Xu, L.Acosta, E.Casarejos, A.A.Ciemny, W.Dominik, J.Duenas-Diaz, V.Dunin, J.M.Espino, A.Estrade, F.Farinon, A.Fomichev, H.Geissel, T.A.Golubkova, A.Gorshkov, Z.Janas, G.Kaminski, O.Kiselev, R.Knobel, S.Krupko, M.Kuich, Yu.A.Litvinov, G.Marquinez-Duran, I.Martel, C.Mazzocchi, C.Nociforo, A.K.Orduz, M.Pfutzner, S.Pietri, M.Pomorski, A.Prochazka, S.Rymzhanova, A.M.Sanchez-Benitez, C.Scheidenberger, P.Sharov, H.Simon, B.Sitar, R.Slepnev, M.Stanoiu, P.Strmen, I.Szarka, M.Takechi, Y.K.Tanaka, H.Weick, M.Winkler, J.S.Winfield, M.V.Zhukov

Observation and Spectroscopy of New Proton-Unbound Isotopes ³⁰Ar and ²⁹Cl: An Interplay of Prompt Two-Proton and Sequential Decay

NUCLEAR REACTIONS ⁹Be(³¹Ar, X)³⁰Ar/²⁹Cl, E=620 MeV/nucleon; measured reaction products, Ep, Ip; deduced ground state energies, J, π.

RADIOACTIVITY ¹⁹Mg, ³⁰Ar(2p); measured decay products, Ep, Ip; deduced T_1/2 limits.

doi: 10.1103/PhysRevLett.115.202501
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2015UL01      J.Phys.(London) B48, 144022 (2015)

J.Ullmann, Z.Andelkovic, A.Dax, W.Geithner, C.Geppert, C.Gorges, M.Hammen, V.Hannen, S.Kaufmann, K.Konig, Y.Litvinov, M.Lochmann, B.Maass, J.Meisner, T.Murbock, R.Sanchez, M.Schmidt, S.Schmidt, M.Steck, T.Stohlker, R.C.Thompson, J.Vollbrecht, C.Weinheimer, W.Nortershauser

An improved value for the hyperfine splitting of hydrogen-like ²⁰⁹BI⁸²⁺

ATOMIC PHYSICS ²⁰⁹Bi; measured time structure of the fluorescence resonance signal; deduced the rest frame transition wavelength and transition energies. Comparison with theoretical calculations.

doi: 10.1088/0953-4075/48/14/144022
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2015XU14      Chin.Phys.C 39, 104001 (2015)

X.Xu, M.Wang, Y.-H.Zhang, H.-S.Xu, P.Shuai, X.-L.Tu, Y.A.Litvinov, X.-H.Zhou, B.-H.Sun, Y.-J.Yuan, J.-W.Xia, J.-C.Yang, K.Blaum, R.-J.Chen, X.-C.Chen, C.-Y.Fu, Z.Ge, Z.-G.Hu, W.-J.Huang, D.-W.Liu, Y.-H.Lam, X.-W.Ma, R.-S.Mao, T.Uesaka, G.-Q.Xiao, Y.-M.Xing, T.Yamaguchi, Y.Yamaguchi, Q.Zeng, X.-L.Yan, H.-W.Zhao, T.-C.Zhao, W.Zhang, W.-L.Zhan

Direct mass measurements of neutron-rich ⁸⁶Kr projectile fragments and the persistence of neutron magic number N=32 in Sc isotopes

ATOMIC MASSES ²³F, ²⁵Ne, ³³Al, ³⁶Si, ³⁸P, ^42,43Cl, ^52,53,54Sc, ^54,56Ti, ^57,58V, ⁶¹Cr, ⁶⁹Co; measured corrected revolution time spectrum; deduced mass excess values. Comparison with AME12 mass evaluation.

doi: 10.1088/1674-1137/39/10/104001
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2014CA23      Nucl.Data Sheets 120, 81 (2014)

R.Caballero-Folch, C.Domingo-Pardo, G.Cortes, J.L.Tain, J.Agramunt, A.Algora, F.Ameil, Y.Ayyad, J.Benlliure, M.Bowry, F.Calvino, D.Cano-Ott, T.Davinson, I.Dillmann, A.Estrade, A.Evdokimov, T.Faestermann, F.Farinon, D.Galaviz, A.Garcia-Rios, H.Geissel, W.Gelletly, R.Gernhauser, M.B.Gomez Hornillos, C.Guerrero, M.Heil, C.Hinke, R.Knobel, I.Kojouharov, J.Kurcewicz, N.Kurz, Y.Litvinov, L.Maier, J.Marganiec, M.Marta, T.Martinez, F.Montes, I.Mukha, D.R.Napoli, C.Nociforo, C.Paradela, S.Pietri, Zs.Podolyak, A.Prochazka, S.Rice, A.Riego, B.Rubio, H.Schaffner, C.Scheidenberger, K.Smith, E.Sokol, K.Steiger, B.Sun, M.Takechi, D.Testov, H.Weick, E.Wilson, J.S.Winfield, R.Wood, P.J.Woods, A.Yeremin

β-decay and β-delayed Neutron Emission Measurements at GSI-FRS Beyond N=126, for r-process Nucleosynthesis

RADIOACTIVITY ^{208,209,210,211}Hg, ^{211,212,213,214,215}Tl, ^{214,215,216,217,218}Pb(β^-), (β^-n); measured decay products, Eβ, Iβ, En, In.; deduced preliminary T_1/2.

doi: 10.1016/j.nds.2014.07.012
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2014ES07      Phys.Rev.Lett. 113, 132501 (2014)

A.Estrade, R.Kanungo, W.Horiuchi, F.Ameil, J.Atkinson, Y.Ayyad, D.Cortina-Gil, I.Dillmann, A.Evdokimov, F.Farinon, H.Geissel, G.Guastalla, R.Janik, M.Kimura, R.Knobel, J.Kurcewicz, Yu.A.Litvinov, M.Marta, M.Mostazo, I.Mukha, C.Nociforo, H.J.Ong, S.Pietri, A.Prochazka, C.Scheidenberger, B.Sitar, P.Strmen, Y.Suzuki, M.Takechi, J.Tanaka, I.Tanihata, S.Terashima, J.Vargas, H.Weick, J.S.Winfield

Proton Radii of ^12-17B Define a Thick Neutron Surface in ¹⁷B

NUCLEAR REACTIONS C(¹⁰B, X), (¹¹B, X), (¹²B, X), (¹³B, X), (¹⁴B, X), (¹⁵B, X), (¹⁶B, X), (¹⁷B, X), E ∼ 900 MeV/nucleon; measured reaction products. ^{10,11,12,13,14,15,16,17}B; deduced charge-changing σ, proton and matter radii, neutron skin. Glauber model analysis.

doi: 10.1103/PhysRevLett.113.132501
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0749. Data from this article have been entered in the XUNDL database. For more information, click here.

2014GU07      Phys.Rev.Lett. 112, 082501 (2014)

J.Gunst, Y.A.Litvinov, C.H.Keitel, A.Palffy

Dominant Secondary Nuclear Photoexcitation with the X-Ray Free-Electron Laser

RADIOACTIVITY ⁹³Mo(IT) [from ⁹³Nb(p, n)^93mMo, E not given]; calculated contribution of the secondary processes coupling nuclei to the atomic shell; deduced dominance of the secondary processes over direct photoexcitation. Comparison with available data.

doi: 10.1103/PhysRevLett.112.082501
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2014HI07      Phys.Rev. A 90, 042713 (2014)

P.-M.Hillenbrand, S.Hagmann, A.B.Voitkiv, B.Najjari, D.Banas, K.-H.Blumenhagen, C.Brandau, W.Chen, E.De Filippo, A.Gumberidze, D.L.Guo, C.Kozhuharov, M.Lestinsky, Yu.A.Litvinov, A.Muller, H.Rothard, S.Schippers, M.S.Schoffler, U.Spillmann, S.Trotsenko, X.L.Zhu, Th.Stohlker

Electron-loss-to-continuum cusp in U⁸⁸ + N₂ collisions

NUCLEAR REACTIONS N(U, N'), E=90 MeV/nucleon; measured reaction products, Eβ, Iβ; deduced σ(E), σ(θ, E). Comparison with fully relativistic Dirac calculations.

doi: 10.1103/PhysRevA.90.042713
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2014KR09      Phys.Rev. C 90, 024301 (2014)

S.Kreim, D.Beck, K.Blaum, Ch.Borgmann, M.Breitenfeldt, T.E.Cocolios, A.Gottberg, F.Herfurth, M.Kowalska, Yu.A.Litvinov, D.Lunney, V.Manea, T.M.Mendonca, S.Naimi, D.Neidherr, M.Rosenbusch, L.Schweikhard, Th.Stora, F.Wienholtz, R.N.Wolf, K.Zuber

Competition between pairing correlations and deformation from the odd-even mass staggering of francium and radium isotopes

ATOMIC MASSES ^{222,224,226,227,228,229,230,231,232,233}Fr, ^233,234Ra[isotopes from U(p, F), E=1.4 GeV]; measured TOF-ICR resonances, frequency ratios, mass excesses using ISOLTRAP Penning-trap at ISOLDE-CERN facility; deduced odd-even staggering in binding energies, S(2n), three-point pairing-gap estimator Δ³(N); calculated Nilsson single-particle level schemes for N=128-148 nuclei using HF and HFB approaches, and connections to the single-particle level density and nuclear quadrupole and octupole deformations. Comparison with mass measurements using ESR at GSI and AME-2003 evaluation.

RADIOACTIVITY ²³³Fr(β^-)[from U(p, F), E=1.4 GeV]; measured (ion)β correlations, ground-state half-life.

doi: 10.1103/PhysRevC.90.024301
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2014LO11      Phys.Rev. A 90, 030501R (2014)

M.Lochmann, R.Johren, C.Geppert, Z.Andelkovic, D.Anielski, B.Botermann, M.Bussmann, A.Dax, N.Frommgen, M.Hammen, V.Hannen, T.Kuhl, Y.A.Litvinov, R.Lopez-Coto, T.Stohlker, R.C.Thompson, J.Vollbrecht, A.Volotka, C.Weinheimer, W.Wen, E.Will, D.Winters, R.Sanchez, W.Nortershauser

Observation of the hyperfine transition in lithium-like bismuth ²⁰⁹Bi⁸⁰⁺ :Towards a test of QED in strong magnetic fields

ATOMIC PHYSICS ²⁰⁹Bi; measured fluorescence emission wavelengths; deduced hyperfine splitting. Comparison with available data.

doi: 10.1103/PhysRevA.90.030501
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2014MA26      Acta Phys.Pol. B45, 229 (2014)

J.Marganiec, F.Wamers, F.Aksouh, Y.Aksyutina, H.Alvarez-Pol, T.Aumann, S.Beceiro, C.Bertulani, K.Boretzky, M.J.G.Borge, M.Chartier, A.Chatillon, L.Chulkov, D.Cortina-Gil, I.Egorova, H.Emling, O.Ershova, C.Forssen, L.M.Fraile, H.Fynbo, D.Galaviz, H.Geissel, L.Grigorenko, M.Heil, D.H.H.Hoffmann, J.Hoffmann, H.Johansson, B.Jonson, M.Karakoc, C.Karagiannis, O.Kiselev, J.V.Kratz, R.Kulessa, N.Kurz, C.Langer, M.Lantz, K.Larsson, T.Le Bleis, R.Lemmon, Yu.A.Litvinov, K.Mahata, C.Muntz, T.Nilsson, C.Nociforo, G.Nyman, W.Ott, V.Panin, Yu.Parfenova, S.Paschalis, A.Perea, R.Plag, R.Reifarth, A.Richter, K.Riisager, C.Rodriguez-Tajes, D.Rossi, G.Schrieder, N.Shulgina, H.Simon, J.Stroth, K.Summerer, J.Taylor, O.Tengblad, E.Tengborn, H.Weick, M.Wiescher, C.Wimmer, M.Zhukov

Study of the ¹⁵O(2p, γ)¹⁷Ne Cross Section by Coulomb Dissociation of ¹⁷Ne for the rp Process of Nucleosynthesis

NUCLEAR REACTIONS Pb(¹⁷Ne, 2p)¹⁵O, E=500 MeV/nucleon; measured reaction products, Eγ, Iγ, Ep, Ip; deduced σ, σ(E), resonances. Comparison with theoretical calculations, R3BROOT package.

doi: 10.5506/APhysPolB.45.229
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2014ME05      Phys.Rev. C 89, 054612 (2014)

B.Mei, H.S.Xu, X.L.Tu, Y.H.Zhang, Yu.A.Litvinov, K.-H.Schmidt, M.Wang, Z.Y.Sun, X.H.Zhou, Y.J.Yuan, M.V.Ricciardi, A.Kelic-Heil, R.Reifarth, K.Blaum, R.S.Mao, Z.G.Hu, P.Shuai, Y.D.Zang, X.W.Ma, X.Y.Zhang, J.W.Xia, G.Q.Xiao, Z.Y.Guo, J.C.Yang, X.H.Zhang, X.Xu, X.L.Yan, W.Zhang, W.L.Zhan

Origin of odd-even staggering in fragment yields: Impact of nuclear pairing and shell structure on the particle-emission threshold energy

NUCLEAR REACTIONS ⁹Be(⁷⁸Kr, X), E=482.9 MeV/nucleon; measured reaction products, fragment yields, particle-emission threshold energies of T_z=-1/2 and +1/2, Z=8-31 nuclei using in-flight fragment separator and a storage ring facility at CSRe-HIRFL-Lanzhou; deduced odd-even staggering (OES) effect on yields of fragments, and impact of pairing and shell structure.

doi: 10.1103/PhysRevC.89.054612
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2014SH14      Phys.Lett. B 735, 327 (2014)

P.Shuai, H.S.Xu, X.L.Tu, Y.H.Zhang, B.H.Sun, M.Wang, Yu.A.Litvinov, K.Blaum, X.H.Zhou, J.J.He, Y.Sun, K.Kaneko, Y.J.Yuan, J.W.Xia, J.C.Yang, G.Audi, X.L.Yan, X.C.Chen, G.B.Jia, Z.G.Hu, X.W.Ma, R.S.Mao, B.Mei, Z.Y.Sun, S.T.Wang, G.Q.Xiao, X.Xu, T.Yamaguchi, Y.Yamaguchi, Y.D.Zang, H.W.Zhao, T.C.Zhao, W.Zhang, W.L.Zhan

Charge and frequency resolved isochronous mass spectrometry and the mass of ⁵¹Co

ATOMIC MASSES ⁵¹Co, ³⁴Ar; measured revolution frequencies; deduced mass excess values. Comparison with shell model calculations.

doi: 10.1016/j.physletb.2014.06.046
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2014SO01      Phys.Rev. C 89, 024311 (2014)

A.Sobiczewski, Y.A.Litvinov

Accuracy of theoretical descriptions of nuclear masses

ATOMIC MASSES Z>8, N>8; analyzed accuracy of current theoretical descriptions of nuclear masses by comparing AME-12 evaluated masses with theoretical values from ten different models of macroscopic-microscopic type, purely microscopic, and models of other natures (LSD, FRDM, TF, FRLDM, HFB21, GHFB, DZ, KTUY, WS3.6, WS3.3); deduced rms deviations, predictive power of various mass models; dependence of rms discrepancy on the region of nuclei.

doi: 10.1103/PhysRevC.89.024311
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2014SO10      Phys.Rev. C 90, 017302 (2014)

A.Sobiczewski, Y.A.Litvinov

Predictive power of nuclear-mass models

ATOMIC MASSES Z=8-28; Z=28-50; Z=50-82; Z>82; analyzed differences between theoretical predictions of ten different nuclear-mass models (LSD, FRDM, TF, FRLDM, HFB21, GHFB, DZ, KTUY, WS3.6 and WS3.3) and evaluated masses in AME-2003 and AME-2012 for 2134 nuclides. No evidence for a clear correlation between the two quantities.

doi: 10.1103/PhysRevC.90.017302
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