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NSR database version of April 11, 2024.

Search: Author = J.L.Rodriguez-Sanchez

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2024SC03      Eur.Phys.J. A 60, (2024)

A.Schmidt, Th.Gaitanos, A.Obertelli, J.L.Rodriguez-Sanchez

Production of hypernuclei from antiproton capture within a relativistic transport model

NUCLEAR REACTIONS ¹⁶O, ⁴⁰Ar, ⁸⁴Kr, ¹³²Xe(p-bar, X), E not given; analyzed available data; deduced hypernuclei yields from the peripheral annihilation of a captured antiproton following the formation of antiprotonic atoms using Monte-Carlo simulations within the GiBUU transport framework, while the deexcitation of hyperfragments is performed with the ABLA++ code.

doi: 10.1140/epja/s10050-024-01262-1
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2023RO03      Phys.Rev.Lett. 130, 132501 (2023)

J.L.Rodriguez-Sanchez, J.Cugnon, J.-C.David, J.Hirtz, A.Kelic-Heil, I.Vidana

Constraint of the Nuclear Dissipation Coefficient in Fission of Hypernuclei

NUCLEAR REACTIONS ²⁰⁹Bi, ²³⁸U(p, F), E=1-2.4 GeV/nucleon; calculated hypernuclear fission σ. Comparison with experimental data.

doi: 10.1103/PhysRevLett.130.132501
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2022CH38      Phys.Rev. C 106, 024618 (2022)

A.Chatillon, J.Taieb, A.Heinz, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, J.Benlliure, G.Boutoux, M.Caamano, E.Casarejos, D.Cortina-Gil, A.Ebran, F.Farget, B.Fernandez-Dominguez, T.Gorbinet, L.Grente, H.T.Johansson, B.Jurado, A.Kelic-Heil, N.Kurz, B.Laurent, J.-F.Martin, C.Nociforo, C.Paradela, E.Pellereau, S.Pietri, A.Prochazka, J.L.Rodriguez-Sanchez, D.Rossi, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Influence of proton and neutron deformed shells on the asymmetric fission of thorium isotopes

NUCLEAR REACTIONS ^{222,223,225,226,229,230}Th, ^{228,229,231,232}Pa, ^234,235,238U, ²³⁸Np(γ, F), E=13-14 MeV; ^219,223,227Ac(γ, F), E ≈ 16 MeV; analyzed elemental, isotonic, and isobaric experimental fission fragment yields in Coulex experiments obtained at R3B/SOFIA setups (2019CH20); deduced average value of the atomic number of the light and heavy fission fragments, centroid positions of the light and heavy peaks of the isotonic yields, average total prompt-neutron multiplicity. Discussed the influence of deformed neutron and proton shells on the fission process.

doi: 10.1103/PhysRevC.106.024618
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2022RO02      Phys.Rev. C 105, 014623 (2022)

J.L.Rodriguez-Sanchez, J.Cugnon, J.-C.David, J.Hirtz, A.Kelic-Heil, S.Leray

Hypernuclei formation in spallation reactions by coupling the Liege intranuclear cascade model to the deexcitation code ABLA

NUCLEAR REACTIONS ²⁰⁹Bi(p, X), E=10 GeV; ¹²C(Mg, X), E=1 GeV/nucleon; calculated separation energy of the Λ hyperon and S(2n) for ²⁰⁸Pb hypernuclei as a function of the hypernucleus mass number. ¹H(¹³⁶Xe, X), (²⁰⁸Pb, X), (²³⁸U, X), E=1000 MeV/nucleon; calculated production σ for Z=10-90 nuclei using INCL+ABLA07, INCL+ABLA, and INCL+SMM model calculations, probability of nuclear fission and evaporation residues surviving to the emission of light particles using ABLA and SMM models for ²⁰⁹Bi and ²³⁸U compound nuclei and hypernuclei, hypernuclear production cross sections as a function of the target mass number. ¹H(²³⁸U, X), E=1.5, 3, 6 GeV/nucleon; calculated Λ-hypernuclei probability as a function of the hypernuclei mass number, isotopic production cross sections of Λ hypernuclei. Liege intranuclear cascade model coupled with a new version of the ablation (ABLA) model for the evaporation of Λ particles from hot hyperremnants during the intranuclear cascade stage. Comparison with available experimental data.

doi: 10.1103/PhysRevC.105.014623
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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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2021MA68      Phys.Rev. C 104, 044602 (2021)

J.-F.Martin, J.Taieb, G.Boutoux, A.Chatillon, T.Gorbinet, E.Pellereau, L.Audouin, A.Heinz, H.Alvarez-Pol, Y.Ayyad, G.Belier, J.Benlliure, M.Caamano, E.Casarejos, D.Cortina-Gil, A.Ebran, F.Farget, B.Fernandez-Dominguez, L.Grente, H.T.Johansson, B.Jurado, A.Kelic-Heil, N.Kurz, B.Laurent, C.Nociforo, C.Paradela, S.Pietri, A.Prochazka, J.L.Rodriguez-Sanchez, D.Rossi, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Fission-fragment yields and prompt-neutron multiplicity for Coulomb-induced fission of ^{234, 235}U and ^{237, 238}Np

NUCLEAR REACTIONS ²³⁸U(²³⁴U, F), (²³⁵U, F), (²³⁷Np, F), (²³⁸Np, F), E=555 MeV/nucleon in the center of the target, [secondary ^234,235U, ^237,238Np beams from ⁹Be(²³⁸U, X), E=1 GeV/nucleon primary reaction, followed by separation of reaction products using FRS separator at GSI facility]; measured fission fragments, (fragment)(fragment)-coin, Coulomb excitation induced fission σ(A, Z), electromagnetic-induced fission yields, mass and charge distribution of fission fragments, isotonic, isobaric, and isotopic fission yields produced for Coulomb-induced fission using the Reactions with Relativistic Radioactive Beams/Studies On FIssion with Aladin (R3B/SOFIA) apparatus at GSI facility. ^234,235,238U, ^237,238Np(γ, F), virtual photons from Coulomb excitation; deduced yields Y(A, Z), σ(A, Z), prompt-neutron and total neutron multiplicities ν(A, Z) for A=77-157, Z=28-64, and N=45-97 fragments: ^{77,78,79,80,81,82,83,84}Ge, ^{78,79,80,81,82,83,84,85,86,87}As, ^{80,81,82,83,84,85,86,87,88,89}Se, ^{83,84,85,86,87,88,89,90,91}Br, ^{85,86,87,88,89,90,91,92,93}Kr, ^{87,88,89,90,91,92,93,94,95,96}Rb, ^{90,91,92,93,94,95,96,97,98}Sr, ^{92,93,94,95,96,97,98,99,100,101}Y, ^{95,96,97,98,99,100,101,102,103}Zr, ^{97,98,99,100,101,102,103,104,105,106}Nb, ^{100,101,102,103,104,105,106,107,108}Mo, ^{103,104,105,106,107,108,109,110,111}Tc, ^{102,103,104,105,106,107,108,109,110,111,112,113,114}Ru, ^{108,109,110,111,112,113,114,115,116,117}Rh, ^{110,111,112,113,114,115,116,117,118,119,120}Pd, ^{113,114,115,116,117,118,119,120,121,122}Ag, ^{115,116,117,118,119,120,121,122,123,124,125,126}Cd, ^{118,119,120,121,122,123,124,125,126,127,128,129}In, ^{121,122,123,124,125,126,127,128,129,130,131,132,133}Sn, ^{124,125,126,127,128,129,130,131,132,133,134,135}Sb, ^{127,128,129,130,131,132,133,134,135,136,137}Te, ^{130,131,132,133,134,135,136,137,138,139,140}I, ^{132,133,134,135,136,137,138,139,140,141,142}Xe, ^{135,136,137,138,139,140,141,142,143,144}Cs, ^{137,138,139,140,141,142,143,144,145,146,147}Ba, ^{139,140,141,142,143,144,145,146,147,148,149,150}La, ^{142,143,144,145,146,147,148,149,150,151,152}Ce, ^{144,145,146,147,148,149,150,151,152,153,154}Pr, ^{146,147,148,149,150,151,152,153,154,155,156,157}Nd, ^{151,152,153,154,155,156}, and ¹⁵⁷Pm, average values of atomic, neutron, and mass numbers for the light and heavy fission fragments, proton even-odd staggering, neutron excess of pre-neutron-evaporation fission fragments produced for Coulomb-induced fission. Comparison with previous measurements using (γ, F) and thermal-neutron induced fission. Comparison with theoretical reaction model calculations using GEF-2019V1.1 code, unchanged charge density (UCD) approach, and by fission treated as an adiabatic process in a Fermi gas (FA). Numerical values of yields, cross sections and neutron multiplicities are listed in the Supplemental Material of this work.

doi: 10.1103/PhysRevC.104.044602
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2020CH18      Phys.Rev.Lett. 124, 202502 (2020)

A.Chatillon, J.Taieb, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, J.Benlliure, G.Boutoux, M.Caamano, E.Casarejos, D.Cortina-Gil, A.Ebran, F.Farget, B.Fernandez-Dominguez, T.Gorbinet, L.Grente, A.Heinz, H.T.Johansson, B.Jurado, A.Kelic-Heil, N.Kurz, B.Laurent, J.-F.Martin, C.Nociforo, C.Paradela, E.Pellereau, S.Pietri, A.Prochazka, J.L.Rodriguez-Sanchez, D.Rossi, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Evidence for a New Compact Symmetric Fission Mode in Light Thorium Isotopes

NUCLEAR REACTIONS ^222,226,230Th(γ, F)¹NN, E not given; measured reaction products, En, In; deduced prompt-neutron emission probability, σ(E), yields.

doi: 10.1103/PhysRevLett.124.202502
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetG0076.

2020DI05      Phys.Lett. B 811, 135962 (2020)

J.Diaz-Cortes, J.Benlliure, J.L.Rodriguez-Sanchez, H.Alvarez-Pol, T.Aumann, C.A.Bertulani, B.Blank, E.Casarejos, D.Cortina-Gil, D.Dragosavac, V.Fohr, A.Gargano, M.Gascon, W.Gawlikowicz, A.Heinz, K.Helariutta, A.Kelic-Heil, S.Lukic, F.Montes, D.Perez-Loureiro, L.Pienkowski, K.-H.Schmidt, M.Staniou, K.Subotic, K.Summerer, J.Taieb, A.Trzcinska

Systematic reduction of the proton-removal cross section in neutron-rich medium-mass nuclei

NUCLEAR REACTIONS ⁹Be(²³⁸U, X)¹³²Sn/¹³¹Sn/¹³¹In/¹²⁸Sn/¹³⁰Sn/¹³⁶Sn, E=950 MeV/nucleon; ⁹Be(¹³²Xe, X)¹¹⁹Sn/¹²⁴Sn/¹²⁶Sn, E=1200 MeV/nucleon; ⁹Be(¹¹⁹Sn, X), (¹²⁴Sn, X), (¹²⁶Sn, X), (¹³⁰Sn, X), (¹³¹Sn, X), (¹³²Sn, X), (¹²⁸Sn, X), (¹³⁶Sn, X), (¹³¹Sn, X), E ∼ 1000 MeV/nucleon; measured reaction products, TOF; deduced single neutron and single proton removal σ. Comparison with the advanced Liege intra-nuclear cascade (INCL) model calculations.

doi: 10.1016/j.physletb.2020.135962
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8031.

2020HI03      Phys.Rev. C 101, 014608 (2020)

J.Hirtz, J.-C.David, A.Boudard, J.Cugnon, S.Leray, I.Leya, J.L.Rodriguez-Sanchez, G.Schnabel

Strangeness production in the new version of the Liege intranuclear cascade model

NUCLEAR REACTIONS Ca(p, X), E=1.7 GeV; calculated transverse momentum versus rapidity distribution. ¹²C(p, X), E=1.6, 1.7 GeV; calculated mean momentum of K⁺ particles. ²⁰⁸Pb(p, X), E=10 GeV; calculated mass distribution of hyper-remnants. C(p, X), E=1.6, 2.3 GeV; Nb, Au(p, X), E=3.5 GeV; Be, Al, Cu, Ta(p, X), E=1.280 GeV; ²⁰⁸Pb(p, X), E=2.1 GeV; ²⁰⁸Pb(d, X), E=2.1 GeV/nucleon; Be, Al, Cu, Au(p, X), E=13.7 GeV; C, Al, Cu, Sn, Pb(π^-, X), E=1020 MeV; Be, C, Cu, Sn, Pb(p, X), E=800-1000 MeV; calculated differential σ(E), total σ(E) and angular distributions for production of K⁺, K⁰ and K^- using Liege intranuclear cascade model (INCL ++6), and compared with experimental data from various collaborations: KaoS-GSI, ITEP-Russia, ANKE-Julich, LBL-Berkeley, HADES-GSI, FOPI-GSI, E-802-BNL, LINP-Russia. Implementation of INCL in the Geant4 transport code. Relevance to design of new experiments for the study of strange particles and hypernuclei at HypHI, Panda, and CBM experiments at the FAIR facility.

doi: 10.1103/PhysRevC.101.014608
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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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2020VA01      Phys.Rev.Lett. 124, 022501 (2020)

V.Vaquero, A.Jungclaus, T.Aumann, J.Tscheuschner, E.V.Litvinova, J.A.Tostevin, H.Baba, D.S.Ahn, R.Avigo, K.Boretzky, A.Bracco, C.Caesar, F.Camera, S.Chen, V.Derya, P.Doornenbal, J.Endres, N.Fukuda, U.Garg, A.Giaz, M.N.Harakeh, M.Heil, A.Horvat, K.Ieki, N.Imai, N.Inabe, N.Kalantar-Nayestanaki, N.Kobayashi, Y.Kondo, S.Koyama, T.Kubo, I.Martel, M.Matsushita, B.Million, T.Motobayashi, T.Nakamura, N.Nakatsuka, M.Nishimura, S.Nishimura, S.Ota, H.Otsu, T.Ozaki, M.Petri, R.Reifarth, J.L.Rodriguez-Sanchez, D.Rossi, A.T.Saito, H.Sakurai, D.Savran, H.Scheit, F.Schindler, P.Schrock, D.Semmler, Y.Shiga, M.Shikata, Y.Shimizu, H.Simon, D.Steppenbeck, H.Suzuki, T.Sumikama, D.Symochko, I.Syndikus, H.Takeda, S.Takeuchi, R.Taniuchi, Y.Togano, J.Tsubota, H.Wang, O.Wieland, K.Yoneda, J.Zenihiro, A.Zilges

Fragmentation of Single-Particle Strength around the Doubly Magic Nucleus ¹³²Sn and the Position of the 0f_5/2 Proton-Hole State in ¹³¹In

NUCLEAR REACTIONS ⁴He(¹³²Sn, n), (¹³²Sn, p), E=203 MeV/nucleon; ⁹Be(²³⁸U, X)¹³²Sn, E=345 MeV/nucleon; measured reaction products, Eγ, Iγ. ¹³¹Sn, ¹³¹In; deduced γ-ray energies, spectroscopic factors, strong fragmentation of single-hole strength. Comparison with theoretical calculations.

doi: 10.1103/physrevlett.124.022501
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2646. Data from this article have been entered in the XUNDL database. For more information, click here.

2019CH20      Phys.Rev. C 99, 054628 (2019)

A.Chatillon, J.Taieb, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, J.Benlliure, G.Boutoux, M.Caamano, E.Casarejos, D.Cortina-Gil, A.Ebran, F.Farget, B.Fernandez-Dominguez, T.Gorbinet, L.Grente, A.Heinz, H.T.Johansson, B.Jurado, A.Kelic-Heil, N.Kurz, B.Laurent, J.-F.Martin, C.Nociforo, C.Paradela, E.Pellereau, S.Pietri, A.Prochazka, J.L.Rodriguez-Sanchez, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Experimental study of nuclear fission along the thorium isotopic chain: From asymmetric to symmetric fission

NUCLEAR REACTIONS ²⁰⁸Pb, ²³⁸U(²¹⁹Ac, F), (²²⁰Ac, F), (²²³Ac, F), (²²⁷Ac, F), (²²¹Th, F), (²²²Th, F), (²²³Th, F), (²²⁵Th, F), (²²⁶Th, F), (²²⁹Th, F), (²³⁰Th, F), (²²⁸Pa, F), (²²⁹Pa, F), (²¹⁹Ac, F), (²²⁰Ac, F), (²²³Ac, F), (²²⁷Ac, F), (²²¹Th, F), (²²²Th, F), (²²³Th, F), (²²⁵Th, F), (²²⁶Th, F), (²²⁹Th, F), (²³⁰Th, F), (²²⁸Pa, F), (²²⁹Pa, F), E=551.7-568.9 MeV/nucleon, [secondary Ac and Th beams from ⁹Be(²³⁸U, X), E=1 GeV/nucleon primary reaction, and using FRS separator at GSI facility for separation of reaction products]; measured fission fragments, (fragment)(fragment)-coin, Coulomb excitation induced fission σ, differential Coulomb excitation σ(θ), electromagnetic-induced fission yields, mass and charge distribution of fission fragments, isotonic and isobaric fission yields using the Reactions with Relativistic Radioactive Beams/Studies On FIssion with Aladin (R3B/SOFIA) apparatus at GSI accelerator facility. Comparison with local even-odd staggering, previous measurements using either the same reaction mechanism and/or thermal-neutron induced fission.

doi: 10.1103/PhysRevC.99.054628
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetG0074.

2019PA25      Phys.Rev.Lett. 122, 162503 (2019)

N.Paul, A.Obertelli, C.A.Bertulani, A.Corsi, P.Doornenbal, J.L.Rodriguez-Sanchez, G.Authelet, H.Baba, D.Calvet, F.Chateau, S.Chen, A.Delbart, J.-M.Gheller, A.Giganon, A.Gillibert, T.Isobe, V.Lapoux, M.Matsushita, S.Momiyama, T.Motobayashi, M.Niikura, H.Otsu, C.Peron, A.Peyaud, E.C.Pollacco, J.-Y.Rousse, H.Sakurai, C.Santamaria, M.Sasano, Y.Shiga, D.Steppenbeck, S.Takeuchi, R.Taniuchi, T.Uesaka, H.Wang, K.Yoneda, T.Ando, T.Arici, A.Blazhev, F.Browne, A.M.Bruce, R.Carroll, L.X.Chung, M.L.Cortes, M.Dewald, B.Ding, Zs.Dombradi, F.Flavigny, S.Franchoo, F.Giacoppo, M.Gorska, A.Gottardo, K.Hadynska-Klek, Z.Korkulu, S.Koyama, Y.Kubota, A.Jungclaus, J.Lee, M.Lettmann, B.D.Linh, J.Liu, Z.Liu, C.Lizarazo, C.Louchart, R.Lozeva, K.Matsui, T.Miyazaki, K.Moschner, S.Nagamine, N.Nakatsuka, C.Nita, S.Nishimura, C.R.Nobs, L.Olivier, S.Ota, Z.Patel, Zs.Podolyak, M.Rudigier, E.Sahin, T.Y.Saito, C.Shand, P.-A.Soderstrom, I.G.Stefan, T.Sumikama, D.Suzuki, R.Orlandi, V.Vaquero, Zs.Vajta, V.Werner, K.Wimmer, J.Wu, Z.Xu

Prominence of Pairing in Inclusive (p, 2p) and (p, pn) Cross Sections from Neutron-Rich Nuclei

NUCLEAR REACTIONS ¹H(⁹⁶Kr, np)⁹⁵Kr, E ∼ 250 MeV/nucleon; analyzed available data for fifty-five inclusive single nucleon-removal σ; deduced systematically higher cross sections are found for proton removal from nuclei with an even number of protons as compared to odd-proton number projectiles for a given neutron separation energy.

doi: 10.1103/PhysRevLett.122.162503
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2626.

2019PE09      Phys.Rev. C 99, 054606 (2019)

D.Perez-Loureiro, J.Benlliure, J.Diaz-Cortes, J.L.Rodriguez-Sanchez, H.Alvarez-Pol, B.Blank, E.Casarejos, D.Dragosavac, V.Fohr, M.Gascon, W.Gawlikowicz, A.Heinz, K.Helariutta, A.Kelic-Heil, S.Lukic, F.Montes, L.Pienkowski, K-H.Schmidt, M.Staniou, K.Subotic, K.Summerer, J.Taieb, A.Trzcinska

Neutron-rich fragments produced by in-flight fission of ²³⁸U

NUCLEAR REACTIONS ²⁰⁸Pb(²³⁸U, F)⁹⁰Kr/⁹¹Kr/⁹⁴Rb/⁹⁵Rb/⁹⁶Rb/⁹⁷Rb/⁹⁸Rb/⁹⁹Rb/¹⁰⁰Rb/⁹⁶Sr/⁹⁷Sr/⁹⁸Sr/⁹⁹Sr/¹⁰⁰Sr/¹⁰¹Sr/¹⁰²Sr/¹⁰³Sr/⁹⁹Y/¹⁰⁰Y/¹⁰¹Y/¹⁰²Y/¹⁰³Y/¹⁰⁴Y/¹⁰⁵Y/¹⁰⁶Y/¹⁰²Zr/¹⁰³Zr/¹⁰⁴Zr/¹⁰⁵Zr/¹⁰⁶Zr/¹⁰⁷Zr/¹⁰⁸Zr/¹⁰⁹Zr/¹⁰⁴Nb/¹⁰⁵Nb/¹⁰⁶Nb/¹⁰⁷Nb/¹⁰⁸Nb/¹⁰⁹Nb/¹¹⁰Nb/¹¹¹Nb/¹⁰⁷Mo/¹⁰⁸Mo/¹⁰⁹Mo/¹¹⁰Mo/¹¹¹Mo/¹¹²Mo/¹¹³Mo/¹¹⁰Tc/¹¹¹Tc/¹¹²Tc/¹¹³Tc/¹¹⁴Tc/¹¹⁵Tc/¹¹⁶Tc/¹¹⁷Tc/¹¹²Ru/¹¹³Ru/¹¹⁴Ru/¹¹⁵Ru/¹¹⁶Ru/¹¹⁷Ru/¹¹⁸Ru/¹¹⁹Ru/¹¹⁵Rh/¹¹⁶Rh/¹¹⁷Rh/¹¹⁸Rh/¹¹⁹Rh/¹²⁰Rh/¹²¹Rh/¹²²Rh/¹¹⁸Pd/¹¹⁹Pd/¹²⁰Pd/¹²¹Pd/¹²²Pd/¹²³Pd/¹²⁴Pd/¹²⁵Pd/¹²⁰Ag/¹²¹Ag/¹²²Ag/¹²³Ag/¹²⁴Ag/¹²⁵Ag/¹²⁶Ag/¹²⁷Ag/¹²⁸Ag/¹²³Cd/¹²⁴Cd/¹²⁵Cd/¹²⁶Cd/¹²⁷Cd/¹²⁸Cd/¹²⁹Cd/¹³⁰Cd/¹³¹Cd/¹²⁶In/¹²⁷In/¹²⁸In/¹²⁹In/¹³⁰In/¹³¹In/¹³²In/¹³³In/¹³⁴In/¹³⁵In/¹²⁸Sn/¹²⁹Sn/¹³⁰Sn/¹³¹Sn/¹³²Sn/¹³³Sn/¹³⁴Sn/¹³⁵Sn/¹³⁶Sn/¹³⁷Sn/¹³²Sb/¹³³Sb/¹³⁴Sb/¹³⁵Sb/¹³⁶Sb/¹³⁷Sb/¹³⁸Sb/¹³⁹Sb/¹³⁵Te/¹³⁶Te/¹³⁷Te/¹³⁸Te/¹³⁹Te/¹⁴⁰Te/¹⁴¹Te/¹⁴²Te/¹³⁷I/¹³⁸I/¹³⁹I/¹⁴⁰I/¹⁴¹I/¹⁴²I/¹⁴³I/¹⁴⁴I/¹⁴¹Xe/¹⁴²Xe/¹⁴³Xe/¹⁴⁴Xe/¹⁴⁵Xe/¹⁴⁶Xe/¹⁴⁷Xe/¹⁴⁴Cs/¹⁴⁵Cs/¹⁴⁶Cs/¹⁴⁷Cs/¹⁴⁸Cs/¹⁴⁹Cs/¹⁴⁵Ba/¹⁴⁶Ba/¹⁴⁷Ba/¹⁴⁸Ba/¹⁴⁹Ba/¹⁵⁰Ba/¹⁵¹Ba/¹⁴⁸La/¹⁴⁹La/¹⁵⁰La/¹⁵¹La/¹⁵²La/¹⁵³La/¹⁵¹Ce/¹⁵²Ce/¹⁵³Ce/¹⁵⁴Ce/¹⁵²Pr/¹⁵³Pr/¹⁵⁵Pr/¹⁵⁵Nd/¹⁵⁶Nd, E=950 MeV/nucleon; ⁹Be(²³⁸U, F)⁸⁰Ga/⁸⁴Ga/⁷⁹Ge/⁸⁰Ge/⁸²Ge/⁸³Ge/⁸⁴Ge/⁸¹As/⁸²As/⁸³As/⁸⁵As/⁸⁶As/⁸⁷As/⁸⁸As/⁸⁴Se/⁸⁵Se/⁸⁷Se/⁸⁸Se/⁸⁹Se/⁹⁰Se/⁸⁶Br/⁸⁷Br/⁸⁸Br/⁸⁹Br/⁹¹Br/⁹²Br/⁹³Br/⁹⁴Br/⁸⁹Kr/⁹⁰Kr/⁹¹Kr/⁹²Kr/⁹³Kr/⁹⁴Kr/⁹⁵Kr/⁹⁶Kr/⁹⁷Kr/⁹²Rb/⁹³Rb/⁹⁴Rb/⁹⁵Rb/⁹⁶Rb/⁹⁷Rb/⁹⁸Rb/⁹⁹Rb/¹⁰⁰Rb/¹⁰¹Rb/⁹⁴Sr/⁹⁵Sr/⁹⁶Sr/⁹⁷Sr/⁹⁸Sr/⁹⁹Sr/¹⁰⁰Sr/¹⁰¹Sr/¹⁰²Sr/¹⁰³Sr/⁹⁹Zr/¹⁰⁰Zr/¹⁰¹Zr/¹⁰²Zr/¹⁰³Zr/¹⁰⁴Zr/¹⁰⁵Zr/¹⁰⁶Zr/¹⁰⁷Zr/¹⁰⁸Zr/¹⁰⁹Zr/¹⁰²Nb/¹⁰³Nb/¹⁰⁴Nb/¹⁰⁵Nb/¹⁰⁶Nb/¹⁰⁷Nb/¹⁰⁸Nb/¹⁰⁹Nb/¹¹⁰Nb/¹¹¹Nb/¹¹²Nb/¹⁰⁵Mo/¹⁰⁶Mo/¹⁰⁷Mo/¹⁰⁸Mo/¹⁰⁹Mo/¹¹⁰Mo/¹¹¹Mo/¹¹²Mo/¹¹³Mo/¹¹⁴Mo/¹¹⁵Mo/¹⁰⁷Tc/¹⁰⁸Tc/¹⁰⁹Tc/¹¹⁰Tc/¹¹¹Tc/¹¹²Tc/¹¹³Tc/¹¹⁴Tc/¹¹⁵Tc/¹¹⁶Tc/¹¹⁷Tc/¹¹⁸Tc/¹¹⁰Ru/¹¹¹Ru/¹¹²Ru/¹¹³Ru/¹¹⁴Ru/¹¹⁵Ru/¹¹⁶Ru/¹¹⁷Ru/¹¹⁸Ru/¹¹⁹Ru/¹²⁰Ru/¹¹³Rh/¹¹⁴Rh/¹¹⁷Pd/¹¹⁸Pd/¹¹⁹Pd/¹²⁰Pd/¹²¹Pd/¹²²Pd/¹²³Pd/¹²⁴Pd/¹²⁵Pd/¹¹⁸Ag/¹¹⁹Ag/¹²⁰Ag/¹²¹Ag/¹²²Ag/¹²³Ag/¹²⁴Ag/¹²⁵Ag/¹²⁶Ag/¹²⁷Ag/¹²⁸Ag/¹²¹Cd/¹²²Cd/¹²³Cd/¹²⁴Cd/¹²⁵Cd/¹²⁶Cd/¹²⁷Cd/¹²⁸Cd/¹²⁹Cd/¹³⁰Cd/¹³¹Cd/¹³²Cd/¹²³In/¹²⁴In/¹²⁵In/¹²⁶In/¹²⁷In/¹²⁸In/¹²⁹In/¹³⁰In/¹³¹In/¹³²In/¹³³In/¹³⁴In/¹²⁶Sn/¹²⁷Sn/¹²⁸Sn/¹²⁹Sn/¹³⁰Sn/¹³¹Sn/¹³²Sn/¹³³Sn/¹³⁴Sn/¹³⁵Sn/¹³⁶Sn/¹³⁷Sn/¹²⁹Sb/¹³³Te/¹³⁴Te/¹³⁵Te/¹³⁶Te/¹³⁷Te/¹³⁸Te/¹³⁹Te/¹⁴⁰Te/¹⁴¹Te/¹⁴²Te/¹⁴³Te/¹³⁵I/¹³⁶I/¹³⁷I/¹³⁸I/¹³⁹I/¹⁴⁰I/¹⁴¹I/¹⁴²I/¹⁴³I/¹⁴⁴I/¹⁴⁵I/¹³⁷Xe/¹³⁸Xe/¹³⁹Xe/¹⁴⁰Xe/¹⁴¹Xe/¹⁴²Xe/¹⁴³Xe/¹⁴⁴Xe/¹⁴⁵Xe/¹⁴⁶Xe/¹⁴⁷Xe/¹⁴⁰Cs/¹⁴¹Cs/¹⁴²Cs/¹⁴³Cs/¹⁴⁴Cs/¹⁴⁵Cs/¹⁴⁶Cs/¹⁴⁷Cs/¹⁴⁸Cs/¹⁴⁹Cs/¹⁴³Ba/¹⁴⁴Ba/¹⁴⁵Ba/¹⁴⁶Ba/¹⁴⁷Ba/¹⁴⁸Ba/¹⁴⁹Ba/¹⁵⁰Ba/¹⁵¹Ba/¹⁵²Ba/¹⁴⁶La/¹⁴⁷La/¹⁴⁸La/¹⁴⁹La, E=950 MeV/nucleon; measured fission fragments, isotopic distributions of the fission fragments, production σ and yields using zero-degree magnetic spectrometer Fragment Separator at GSI accelerator facilities; deduced mean neutron-to-proton ratio of fission fragments, role of Coulomb and nuclear excitation mechanisms in the neutron excess of the final fragments.

doi: 10.1103/PhysRevC.99.054606
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0955.

2019VA07      Phys.Lett. B 795, 356 (2019)

V.Vaquero, A.Jungclaus, J.L.Rodriguez-Sanchez, J.A.Tostevin, P.Doornenbal, K.Wimmer, S.Chen, E.Nacher, E.Sahin, Y.Shiga, D.Steppenbeck, R.Taniuchi, Z.Y.Xu, T.Ando, H.Baba, F.L.Bello Garrote, S.Franchoo, A.Gargano, K.Hadynska-Klek, A.Kusoglu, J.Liu, T.Lokotko, S.Momiyama, T.Motobayashi, S.Nagamine, N.Nakatsuka, M.Niikura, R.Orlandi, T.Saito, H.Sakurai, P.A.Soderstrom, G.M.Tveten, Zs.Vajta, M.Yalcinkaya

Inclusive cross sections for one- and multi-nucleon removal from Sn, Sb, and Te projectiles beyond the N=82 shell closure

NUCLEAR REACTIONS C(¹³⁶Te, n), (¹³⁶Te, 2n), (¹³⁶Te, 3n), (¹³⁶Te, 4n), (¹³⁶Te, 5n), (¹³⁶Te, 6n), (¹³⁴Sn, p), E=138-145 MeV/nucleon; measured reaction products; deduced σ. Comparison with two different versions of the Liege intranuclear cascade model (INCL).

doi: 10.1016/j.physletb.2019.06.035
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2557.

2018RO18      Phys.Rev. C 98, 021602 (2018)

J.L.Rodriguez-Sanchez, J.-C.David, J.Hirtz, J.Cugnon, S.Leray

Constraining the Λ-nucleus potential within the Liege intranuclear cascade model

NUCLEAR REACTIONS ²⁸Si, ⁸⁹Y, ¹³⁹La, ²⁰⁸Pb(π⁺, K⁺), E at 1.06 GeV/c; calculated scatter plot for kinetic energy of K⁺ particles emitted in the production of ²⁸Si hypernucleus as a function of angle, correlations between the hyper-nucleus potential and the cross section of hypernuclei produced in the reactions. Liege intranuclear-cascade model (INCL) for the production of strange particles and hypernuclei. Comparison with previous theoretical calculations.

doi: 10.1103/PhysRevC.98.021602
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2017PA10      Phys.Rev. C 95, 044606 (2017)

C.Paradela, L.Tassan-Got, J.Benlliure, J.L.Rodriguez-Sanchez, L.Audouin, A.Boudard, E.Casarejos, T.Enqvist, J.E.Ducret, F.Farget, B.Fernandez-Dominguez, M.Fernandez-Ordonez, L.Giot, A.Heinz, V.Henzl, D.Henzlova, A.Kelic-Heil, A.Lafriaskh, S.Leray, P.Napolitani, J.Pereira, D.Perez-Loureiro, M.V.Ricciardi, C.Stephan, K.-H.Schmidt, C.Schmitt, C.Villagrasa, C.Volant, O.Yordanov

Isotopic production cross sections of residual nuclei in the spallation reaction ¹³⁶Xe (200A MeV) + p

NUCLEAR REACTIONS ¹H(¹³⁶Xe, X)¹¹⁵Cd/¹¹⁶Cd/¹¹⁵In/¹¹⁶In/¹¹⁷In/¹¹⁸In/¹¹⁹In/¹²⁰In/¹¹⁵Sn/¹¹⁶Sn/¹¹⁷Sn/¹¹⁸Sn/¹¹⁹Sn/¹²⁰Sn/¹²¹Sn/¹²²Sn/¹²³Sn/¹¹⁵Sb/¹¹⁶Sb/¹¹⁷Sb/¹¹⁸Sb/¹¹⁹Sb/¹²⁰Sb/¹²¹Sb/¹²²Sb/¹²³Sb/¹²⁴Sb/¹²⁵Sb/¹²⁶Sb/¹²⁷Sb/¹²⁸Sb/¹¹⁷Te/¹¹⁸Te/¹¹⁹Te/¹²⁰Te/¹²¹Te/¹²²Te/¹²³Te/¹²⁴Te/¹²⁵Te/¹²⁶Te/¹²⁷Te/¹²⁸Te/¹²⁹Te/¹³⁰Te/¹³¹Te/¹³²Te/¹¹⁹I/¹²⁰I/¹²¹I/¹²²I/¹²³I/¹²⁴I/¹²⁵I/¹²⁶I/¹²⁷I/¹²⁸I/¹²⁹I/¹³⁰I/¹³¹I/¹³²I/¹³³I/¹³⁴I/¹³⁵I/¹²⁰Xe/¹²¹Xe/¹²²Xe/¹²³Xe/¹²⁴Xe/¹²⁵Xe/¹²⁶Xe/¹²⁷Xe/¹²⁸Xe/¹²⁹Xe/¹³⁰Xe/¹³¹Xe/¹³²Xe/¹³³Xe/¹³⁴Xe/¹³⁵Xe/¹²¹Cs/¹²²Cs/¹²³Cs/¹²⁴Cs/¹²⁵Cs/¹²⁶Cs/¹²⁷Cs/¹²⁸Cs/¹²⁹Cs/¹³⁰Cs/¹³¹Cs/¹³²Cs/¹³³Cs/¹³⁴Cs/¹³⁵Cs/¹³⁶Cs, E=200 MeV/nucleon; measured charge distribution, energy loss and isotopic σ(A, Z) and isobaric σ(A) of the fragments using the FRS separator and multisampling ionization chambers (MUSICs) at GSI; deduced correlation plot between atomic number (Z) and mass-over-charge ratio (A/Z), identification plot, correlation between the mass identification in the two FRS sections, momentum distribution of the ¹²⁵Xe. Comparison with theoretical predictions using INCL4.6 and ISABEL codes coupled to the deexcitation code ABLA07.

doi: 10.1103/PhysRevC.95.044606
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2407.

2017PE08      Phys.Rev. C 95, 054603 (2017)

E.Pellereau, J.Taieb, A.Chatillon, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, J.Benlliure, G.Boutoux, M.Caamano, E.Casarejos, D.Cortina-Gil, A.Ebran, F.Farget, B.Fernandez-Dominguez, T.Gorbinet, L.Grente, A.Heinz, H.Johansson, B.Jurado, A.Kelic-Heil, N.Kurz, B.Laurent, J.-F.Martin, C.Nociforo, C.Paradela, S.Pietri, J.L.Rodriguez-Sanchez, K.-H.Schmidt, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Accurate isotopic fission yields of electromagnetically induced fission of ²³⁸U measured in inverse kinematics at relativistic energies

NUCLEAR REACTIONS ²³⁸U(²³⁸U, F), E=650 MeV/nucleon; measured mass and charge coincidences, elemental, isobaric and isotopic yields and mass distribution of fission fragments of Z=29-62, N=43-95, A=71-156 in ²³⁸U(γ, F) using the SOFIA experimental setup and around the ALADIN magnet at GSI. Comparison with the GEF model calculations, and with ²³⁸U(n, F) data in ENDF-BVII.1 and JEFF.3.1.

doi: 10.1103/PhysRevC.95.054603
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetG0077.

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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2017RO24      Phys.Rev. C 96, 054602 (2017)

J.L.Rodriguez-Sanchez, J.-C.David, D.Mancusi, A.Boudard, J.Cugnon, S.Leray

Improvement of one-nucleon removal and total reaction cross sections in the Liege intranuclear-cascade model using Hartree-Fock-Bogoliubov calculations

NUCLEAR REACTIONS ¹H(⁴⁰Ca, ³⁹Ca), (⁴⁰Ca, ³⁹K), (²⁰⁸Pb, ²⁰⁷Pb)(²⁰⁸Pb, ²⁰⁷Tl), (¹²C, ¹¹C), (¹²C, ¹¹B), (²⁵Mg, ²⁴Na), (⁵⁶Fe, ⁵⁵Fe), (⁵⁶Fe, ⁵⁵Mn), (⁷⁴Ge, ⁷³Ga), (¹³⁶Xe, ¹³⁵Xe), (¹³⁶Xe, ¹³⁵I), E(kinetic energy)=100-1200 MeV; calculated one-neutron- and one-proton-removal cross sections as a function of the kinetic energy. ¹H(⁴⁰Ca, 2p), E=392 MeV; ¹H(¹⁹⁷Au, 2p), E=200 MeV; calculated triple- and quadruple-differential cross sections for the production of protons. ¹H(²⁰⁸Pb, X), (¹³⁶Xe, X), E=1 GeV; calculated isotopic distributions of Z=81, 82 and 83 residues for ²⁰⁸Pb and Z=53, 54 and 55 residues for ¹³⁶Xe. ¹H(⁵⁶Fe, X), (²⁰⁸Pb, X), (²³⁸U, X), E(K.E.)=10-3000 MeV; calculated total reaction cross sections as function of kinetic energy. ¹²C(¹⁸Ne, X), (¹⁹Ne, X), (²⁰Ne, X), (²¹Ne, X), (²²Ne, X), (²³Ne, X), (²⁴Ne, X), (²⁵Ne, X), (²⁶Ne, X), (²⁸Ne, X), (²⁹Ne, X), (²⁰Mg, X), (²²Mg, X), (²³Mg, X), (²⁴Mg, X), (²⁵Mg, X), (²⁷Mg, X), (²⁹Mg, X), (³⁰Mg, X), (³¹Mg, X), (³²Mg, X), E=950 MeV/nucleon; ¹²C(⁹Be, X), (¹²C, X), (²⁷Al, X), (⁶⁴Zn, X), E<1050 MeV/nucleon; calculated total reaction cross sections. Liege Intranuclear-cascade (INLC) models. INCL++/ABLA07 calculations, and comparison with experimental data.

NUCLEAR STRUCTURE ²⁰⁸Pb, ²⁵Mg; calculated space-kinetic-energy density contours, proton and neutron densities for all nuclei between the proton and neutron drip lines using the Hartree-Fock-Bogoliubov approach based on the code HFBRAD.

doi: 10.1103/PhysRevC.96.054602
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2016RO20      Phys.Rev. C 94, 034605 (2016)

J.L.Rodriguez-Sanchez, J.Benlliure, C.Paradela, Y.Ayyad, E.Casarejos, H.Alvarez-Pol, L.Audouin, G.Belier, G.Boutoux, A.Chatillon, D.Cortina-Gil, T.Gorbinet, A.Heinz, A.Kelic-Heil, B.Laurent, J.-F.Martin, E.Pellereau, B.Pietras, D.Ramos, C.Rodriguez-Tajes, D.M.Rossi, H.Simon, J.Taieb, J.Vargas, B.Voss

Light charged particles emitted in fission reactions induced by protons on ²⁰⁸Pb

NUCLEAR REACTIONS ¹H(²⁰⁸Pb, F), E=370, 500, 650 MeV/nucleon; ²⁷Al(²⁰⁸Pb, F), E=500 MeV/nucleon; measured light charged particles, fission fragments, (light charged particles)(fission fragments)-coin using SOFIA detection system at GSI facility; deduced multiplicity distribution of particles with Z=1, width of the atomic-number distribution of the fission fragments as function of the atomic number of the light charged particle, transient time and dissipative effects. Comparison with model calculations.

doi: 10.1103/PhysRevC.94.034605
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2362.

2016RO29      Phys.Rev. C 94, 061601 (2016)

J.L.Rodriguez-Sanchez, J.Benlliure, J.Taieb, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, G.Boutoux, E.Casarejos, A.Chatillon, D.Cortina-Gil, T.Gorbinet, A.Heinz, A.Kelic-Heil, B.Laurent, J.-F.Martin, C.Paradela, E.Pellereau, B.Pietras, D.Ramos, C.Rodriguez-Tajes, D.M.Rossi, H.Simon, J.Vargas, B.Voss

Presaddle and postsaddle dissipative effects in fission using complete kinematics measurements

NUCLEAR REACTIONS ¹H(²⁰⁸Pb, F), E=500 MeV/nucleon; measured fission fragments, fission cross sections, prescission neutron multiplicities and average neutron excess of the final fission fragments as function of atomic number of fissioning nuclei by magnetic rigidity and time-of-flight techniques at GSI facility. Kinematics of the two fission fragments used for the first time to investigate fission dynamics at small and large deformations. Comparison of measured cross sections with model calculations using INCL4.6+ABLA07 codes.

doi: 10.1103/PhysRevC.94.061601
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2015AL19      Phys.Rev. C 92, 024607 (2015)

J.Alcantara-Nunez, J.Benlliure, C.Paradela, C.Perez-Loureiro, J.L.Rodriguez-Sanchez, L.Audouin, A.Boudard, E.Casarejos, T.Enqvist, F.Farget, M.Fernandez-Ordonez, A.Heinz, V.Henzl, D.Henzlova, A.Kelic-Heil, A.Lafriaskh, S.Leray, P.Napolitani, J.Pereira, M.V.Ricciardi, C.Stephan, K.-H.Schmidt, C.Schmitt, L.Tassan-Got, C.Villagrasa, C.Volant, O.Yordanov

Isotopic yields of spallation residues produced in ¹³⁶Xe-induced reactions on deuterium at 500 A MeV

NUCLEAR REACTIONS ²H(¹³⁶Xe, X)³⁷Ar/³⁸Ar/³⁹Ar/⁴⁰Ar/⁴¹Ar/⁴²Ar/³⁸K/³⁹K/⁴⁰K/⁴¹K/⁴²K/⁴³K/⁴⁴K/⁴⁵K/⁴⁰Ca/⁴¹Ca/⁴²Ca/⁴³Ca/⁴⁴Ca/⁴⁵Ca/⁴⁶Ca/⁴⁷Ca/⁴²Sc/⁴³Sc/⁴⁴Sc/⁴⁵Sc/⁴⁶Sc/⁴⁷Sc/⁴⁸Sc/⁴⁹Sc/⁵⁰Sc/⁴⁴Ti/⁴⁵Ti/⁴⁶Ti/⁴⁷Ti/⁴⁸Ti/⁴⁹Ti/⁵⁰Ti/⁵¹Ti/⁵²Ti/⁴⁶V/⁴⁷V/⁴⁸V/⁴⁹V/⁵⁰V/⁵¹V/⁵²V/⁵³V/⁵⁴V/⁵⁵V/⁵⁶V/⁴⁸Cr/⁴⁹Cr/⁵⁰Cr/⁵¹Cr/⁵²Cr/⁵³Cr/⁵⁴Cr/⁵⁵Cr/⁵⁶Cr/⁵⁷Cr/⁵⁸Cr/⁵⁰Mn/⁵¹Mn/⁵²Mn/⁵³Mn/⁵⁴Mn/⁵⁵Mn/⁵⁶Mn/⁵⁷Mn/⁵⁸Mn/⁵⁹Mn/⁶⁰Mn/⁶¹Mn/⁵²Fe/⁵³Fe/⁵⁴Fe/⁵⁵Fe/⁵⁶Fe/⁵⁷Fe/⁵⁸Fe/⁵⁹Fe/⁶⁰Fe/⁶¹Fe/⁶²Fe/⁶³Fe/⁵⁴Co/⁵⁵Co/⁵⁶Co/⁵⁷Co/⁵⁸Co/⁵⁹Co/⁶⁰Co/⁶¹Co/⁶²Co/⁶³Co/⁶⁴Co/⁶⁵Co/⁵⁶Ni/⁵⁷Ni/⁵⁸Ni/⁵⁹Ni/⁶⁰Ni/⁶¹Ni/⁶²Ni/⁶³Ni/⁶⁴Ni/⁶⁵Ni/⁶⁶Ni/⁶⁷Ni/⁶⁸Ni/⁵⁹Cu/⁶⁰Cu/⁶¹Cu/⁶²Cu/⁶³Cu/⁶⁴Cu/⁶⁵Cu/⁶⁶Cu/⁶⁷Cu/⁶⁸Cu/⁶⁹Cu/⁷⁰Cu/⁶¹Zn/⁶²Zn/⁶³Zn/⁶⁴Zn/⁶⁵Zn/⁶⁶Zn/⁶⁷Zn/⁶⁸Zn/⁶⁹Zn/⁷⁰Zn/⁷¹Zn/⁷²Zn/⁷³Zn/⁶³Ga/⁶⁴Ga/⁶⁵Ga/⁶⁶Ga/⁶⁷Ga/⁶⁸Ga/⁶⁹Ga/⁷⁰Ga/⁷¹Ga/⁷²Ga/⁷³Ga/⁷⁴Ga/⁷⁵Ga/⁶⁵Ge/⁶⁶Ge/⁶⁷Ge/⁶⁸Ge/⁶⁹Ge/⁷⁰Ge/⁷¹Ge/⁷²Ge/⁷³Ge/⁷⁴Ge/⁷⁵Ge/⁷⁶Ge/⁷⁷Ge/⁷⁸Ge/⁶⁷As/⁶⁸As/⁶⁹As/⁷⁰As/⁷¹As/⁷²As/⁷³As/⁷⁴As/⁷⁵As/⁷⁶As/⁷⁷As/⁷⁸As/⁷⁹As/⁸⁰As/⁶⁹Se/⁷⁰Se/⁷¹Se/⁷²Se/⁷³Se/⁷⁴Se/⁷⁵Se/⁷⁶Se/⁷⁷Se/⁷⁸Se/⁷⁹Se/⁸⁰Se/⁸¹Se/⁸²Se/⁸³Se/⁷¹Br/⁷²Br/⁷³Br/⁷⁴Br/⁷⁵Br/⁷⁶Br/⁷⁷Br/⁷⁸Br/⁷⁹Br/⁸⁰Br/⁸¹Br/⁸²Br/⁸³Br/⁸⁴Br/⁸⁵Br/⁸⁶Br/⁷³Kr/⁷⁴Kr/⁷⁵Kr/⁷⁶Kr/⁷⁷Kr/⁷⁸Kr/⁷⁹Kr/⁸⁰Kr/⁸¹Kr/⁸²Kr/⁸³Kr/⁸⁴Kr/⁸⁵Kr/⁸⁶Kr/⁸⁷Kr/⁸⁸Kr/⁷⁶Rb/⁷⁷Rb/⁷⁸Rb/⁷⁹Rb/⁸⁰Rb/⁸¹Rb/⁸²Rb/⁸³Rb/⁸⁴Rb/⁸⁵Rb/⁸⁶Rb/⁸⁷Rb/⁸⁸Rb/⁸⁹Rb/⁹⁰Rb/⁷⁸Sr/⁷⁹Sr/⁸⁰Sr/⁸¹Sr/⁸²Sr/⁸³Sr/⁸⁴Sr/⁸⁵Sr/⁸⁶Sr/⁸⁷Sr/⁸⁸Sr/⁸⁹Sr/⁹⁰Sr/⁹¹Sr/⁹²Sr/⁹³Sr/⁹⁴Sr, E=500 MeV/nucleon; measured yields and cross sections of spallation reaction residue products using the FRS magnetic spectrometer and multisampling ionization chambers at GSI facility. ²H(¹³⁶Xe, X)⁷⁹Y/⁸⁰Y/⁸¹Y/⁸²Y/⁸³Y/⁸⁴Y/⁸⁵Y/⁸⁶Y/⁸⁷Y/⁸⁸Y/⁸⁹Y/⁹⁰Y/⁹¹Y/⁹²Y/⁹³Y/⁹⁴Y/⁹⁵Y/⁹⁶Y/⁹⁷Y/⁸¹Zr/⁸²Zr/⁸³Zr/⁸⁴Zr/⁸⁵Zr/⁸⁶Zr/⁸⁷Zr/⁸⁸Zr/⁸⁹Zr/⁹⁰Zr/⁹¹Zr/⁹²Zr/⁹³Zr/⁹⁴Zr/⁹⁵Zr/⁹⁶Zr/⁹⁷Zr/⁹⁸Zr/⁹⁹Zr/⁸³Nb/⁸⁴Nb/⁸⁵Nb/⁸⁶Nb/⁸⁷Nb/⁸⁸Nb/⁸⁹Nb/⁹⁰Nb/⁹¹Nb/⁹²Nb/⁹³Nb/⁹⁴Nb/⁹⁵Nb/⁹⁶Nb/⁹⁷Nb/⁹⁸Nb/⁹⁹Nb/¹⁰⁰Nb/¹⁰¹Nb/¹⁰²Nb/⁸⁵Mo/⁸⁶Mo/⁸⁷Mo/⁸⁸Mo/⁸⁹Mo/⁹⁰Mo/⁹¹Mo/⁹²Mo/⁹³Mo/⁹⁴Mo/⁹⁵Mo/⁹⁶Mo/⁹⁷Mo/⁹⁸Mo/⁹⁹Mo/¹⁰⁰Mo/¹⁰¹Mo/¹⁰²Mo/¹⁰²Mo/¹⁰⁴Mo/¹⁰⁵Mo/⁸⁸Tc/⁸⁹Tc/⁹⁰Tc/⁹¹Tc/⁹²Tc/⁹³Tc/⁹⁴Tc/⁹⁵Tc/⁹⁶Tc/⁹⁷Tc/⁹⁸Tc/⁹⁹Tc/¹⁰⁰Tc/¹⁰¹Tc/¹⁰²Tc/¹⁰³Tc/¹⁰⁴Tc/¹⁰⁵Tc/¹⁰⁶Tc/¹⁰⁷Tc/¹⁰⁸Tc/⁹⁰Ru/⁹¹Ru/⁹²Ru/⁹³Ru/⁹⁴Ru/⁹⁵Ru/⁹⁶Ru/⁹⁷Ru/⁹⁸Ru/⁹⁹Ru/¹⁰⁰Ru/¹⁰¹Ru/¹⁰²Ru/¹⁰³Ru/¹⁰⁴Ru/¹⁰⁵Ru/¹⁰⁶Ru/¹⁰⁷Ru/¹⁰⁸Ru/¹⁰⁹Ru/¹¹⁰Ru/¹¹¹Ru/¹¹²Ru/⁹²Rh/⁹³Rh/⁹⁴Rh/⁹⁵Rh/⁹⁶Rh/⁹⁷Rh/⁹⁸Rh/⁹⁹Rh/¹⁰⁰Rh/¹⁰¹Rh/¹⁰²Rh/¹⁰³Rh/¹⁰⁴Rh/¹⁰⁵Rh/¹⁰⁶Rh/¹⁰⁷Rh/¹⁰⁸Rh/¹⁰⁹Rh/¹¹⁰Rh/¹¹¹Rh/¹¹²Rh/¹¹³Rh/¹¹⁴Rh/¹¹⁵Rh/¹¹⁶Rh/⁹⁴Pd/⁹⁵Pd/⁹⁶Pd/⁹⁷Pd/⁹⁸Pd/⁹⁹Pd/¹⁰⁰Pd/¹⁰¹Pd/¹⁰²Pd/¹⁰³Pd/¹⁰⁴Pd/¹⁰⁵Pd/¹⁰⁶Pd/¹⁰⁷Pd/¹⁰⁸Pd/¹⁰⁹Pd/¹¹⁰Pd/¹¹¹Pd/¹¹²Pd/¹¹³Pd/¹¹⁴Pd/¹¹⁵Pd/¹¹⁶Pd/¹¹⁷Pd/¹¹⁸Pd/¹¹⁹Pd/¹²⁰Pd/⁹⁸Ag/⁹⁹Ag/¹⁰⁰Ag/¹⁰¹Ag/¹⁰²Ag/¹⁰³Ag/¹⁰⁴Ag/¹⁰⁵Ag/¹⁰⁶Ag/¹⁰⁷Ag/¹⁰⁸Ag/¹⁰⁹Ag/¹¹⁰Ag/¹¹¹Ag/¹¹²Ag/¹¹³Ag/¹¹⁴Ag/¹¹⁵Ag/¹¹⁶Ag/¹¹⁷Ag/¹¹⁸Ag/¹¹⁹Ag/¹²⁰Ag/¹²¹Ag/¹²²Ag/¹²³Ag/¹⁰⁰Cd/¹⁰¹Cd/¹⁰²Cd/¹⁰³Cd/¹⁰⁴Cd/¹⁰⁵Cd/¹⁰⁶Cd/¹⁰⁷Cd/¹⁰⁸Cd/¹⁰⁹Cd/¹¹⁰Cd/¹¹¹Cd/¹¹²Cd/¹¹³Cd/¹¹⁴Cd/¹¹⁵Cd/¹¹⁶Cd/¹¹⁷Cd/¹¹⁸Cd/¹¹⁹Cd/¹²⁰Cd/¹²¹Cd/¹²²Cd/¹²³Cd/¹²⁴Cd/¹²⁵Cd/¹²⁶Cd, E=500 MeV/nucleon; measured yields and cross sections of spallation reaction residue products using the FRS magnetic spectrometer and multisampling ionization chambers at GSI facility. ²H(¹³⁶Xe, X)¹⁰²In/¹⁰³In/¹⁰⁴In/¹⁰⁵In/¹⁰⁶In/¹⁰⁷In/¹⁰⁸In/¹⁰⁹In/¹¹⁰In/¹¹¹In/¹¹²In/¹¹³In/¹¹⁴In/¹¹⁵In/¹¹⁶In/¹¹⁷In/¹¹⁸In/¹¹⁹In/¹²⁰In/¹²¹In/¹²²In/¹²³In/¹²⁴In/¹²⁵In/¹²⁶In/¹²⁷In/¹²⁸In/¹²⁹In/¹⁰⁵Sn/¹⁰⁶Sn/¹⁰⁷Sn/¹⁰⁸Sn/¹⁰⁹Sn/¹¹⁰Sn/¹¹¹Sn/¹¹²Sn/¹¹³Sn/¹¹⁴Sn/¹¹⁵Sn/¹¹⁶Sn/¹¹⁷Sn/¹¹⁸Sn/¹¹⁹Sn/¹²⁰Sn/¹²¹Sn/¹²²Sn/¹²³Sn/¹²⁴Sn/¹²⁵Sn/¹²⁶Sn/¹²⁷Sn/¹²⁸Sn/¹²⁹Sn/¹³⁰Sn/¹³¹Sn/¹³²Sn/¹⁰⁷Sb/¹⁰⁸Sb/¹⁰⁹Sb/¹¹⁰Sb/¹¹¹Sb/¹¹²Sb/¹¹³Sb/¹¹⁴Sb/¹¹⁵Sb/¹¹⁶Sb/¹¹⁷Sb/¹¹⁸Sb/¹¹⁹Sb/¹²⁰Sb/¹²¹Sb/¹²²Sb/¹²³Sb/¹²⁴Sb/¹²⁵Sb/¹²⁶Sb/¹²⁷Sb/¹²⁸Sb/¹²⁹Sb/¹³⁰Sb/¹³¹Sb/¹³²Sb/¹³³Sb/¹³⁴Sb/¹¹⁰Te/¹¹¹Te/¹¹²Te/¹¹³Te/¹¹⁴Te/¹¹⁵Te/¹¹⁶Te/¹¹⁷Te/¹¹⁸Te/¹¹⁹Te/¹²⁰Te/¹²¹Te/¹²²Te/¹²³Te/¹²⁴Te/¹²⁵Te/¹²⁶Te/¹²⁷Te/¹²⁸Te/¹²⁹Te/¹³⁰Te/¹³¹Te/¹³²Te/¹³³Te/¹³⁴Te/¹³⁵Te/¹¹²I/¹¹³I/¹¹⁴I/¹¹⁵I/¹¹⁶I/¹¹⁷I/¹¹⁸I/¹¹⁹I/¹²⁰I/¹²¹I/¹²²I/¹²³I/¹²⁴I/¹²⁵I/¹²⁶I/¹²⁷I/¹²⁸I/¹²⁹I/¹³⁰I/¹³¹I/¹³²I/¹³³I/¹³⁴I/¹³⁵I/¹³⁶I/¹¹⁶Xe/¹¹⁷Xe/¹¹⁸Xe/¹¹⁹Xe/¹²⁰Xe/¹²¹Xe/¹²²Xe/¹²³Xe/¹²⁴Xe/¹²⁵Xe/¹²⁶Xe/¹²⁷Xe/¹²⁸Xe/¹²⁹Xe/¹³⁰Xe/¹³¹Xe/¹³²Xe/¹³³Xe/¹³⁴Xe/¹³⁵Xe/¹¹⁹Cs/¹²⁰Cs/¹²¹Cs/¹²²Cs/¹²³Cs/¹²⁴Cs/¹²⁵Cs/¹²⁶Cs/¹²⁷Cs/¹²⁸Cs/¹²⁹Cs/¹³⁰Cs/¹³¹Cs/¹³²Cs/¹³³Cs/¹³⁴Cs/¹³⁵Cs/¹³⁶Cs/¹²³Ba/¹²⁴Ba/¹²⁵Ba/¹²⁶Ba/¹²⁷Ba/¹²⁸Ba/¹²⁹Ba/¹³⁰Ba/¹³¹Ba/¹³²Ba/¹³³Ba/¹³⁴Ba/¹³⁵Ba, E=500 MeV/nucleon; measured yields and cross sections of spallation reaction residue products using the FRS magnetic spectrometer and multisampling ionization chambers at GSI facility. Benchmarked reference model calculations describing spallation reactions. Comparison with the measured production yields in ¹H(¹³⁶Xe, X), E=500, 1000 MeV/nucleon.

doi: 10.1103/PhysRevC.92.024607
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1889.

2015AY01      Phys.Rev. C 91, 034601 (2015)

Y.Ayyad, J.Benlliure, J.L.Rodriguez-Sanchez, A.Bacquias, A.Boudard, E.Casarejos, T.Enqvist, M.Fernandez, V.Henzl, V.Henzlova, B.Jurado, A.Kelic-Heil, T.Kurtukian, S.Lukic, P.Nadtochy, D.Perez-Loureiro, R.Pleskac, F.Farget, M.V.Ricciardi, K.-H.Schmidt, C.Schmitt, N.N.Son

Dissipative effects in spallation-induced fission of ²⁰⁸Pb at high excitation energies

NUCLEAR REACTIONS ^1,2H(²⁰⁸Pb, F), E=500 MeV/nucleon; measured particle spectra, energy loss of the fission fragments, sum spectrum of fission fragments nuclear charge Z₁+Z₂, fission fragment charge distributions as function of mass number, partial fission and normalized cross sections as a function of the charge, distribution of the excitation energy of all the prefragments, width of the fission fragment charge distribution. Comparisons with model calculations using INCL and ISABEL codes coupled to ABLA.

doi: 10.1103/PhysRevC.91.034601
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2015FU02      Acta Phys.Pol. B46, 127 (2015)

H.Fujioka, Y.Ayyad, J.Benlliure, K.-T.Brinkmann, S.Friedrich, H.Geissel, J.Gellanki, C.Guo, E.Gutz, E.Haettner, M.N.Harakeh, R.S.Hayano, Y.Higashi, S.Hirenzaki, C.Hornung, Y.Igarashi, N.Ikeno, K.Itahashi, M.Iwasaki, D.Jido, N.Kalantar-Nayestanaki, R.Kanungo, R.Knoebel, N.Kurz, V.Metag, I.Mukha, T.Nagae, H.Nagahiro, M.Nanova, T.Nishi, H.J.Ong, S.Pietri, A.Prochazka, C.Rappold, M.P.Reiter, J.L.Rodriguez-Sanchez, C.Scheidenberger, H.Simon, B.Sitar, P.Strmen, B.Sun, K.Suzuki, I.Szarka, M.Takechi, Y.K.Tanaka, I.Tanihata, S.Terashima, Y.N.Watanabe, H.Weick, E.Widmann, J.S.Winfield, X.Xu, H.Yamakami, J.Zhao

Search for η'(958)-nucleus Bound States by (p, d) Reaction at GSI and FAIR

NUCLEAR REACTIONS C(p, d), E=2.5 GeV; measured reaction products, Ep, Ip; deduced preliminary results for η'-mesic nuclei.

doi: 10.5506/APhysPolB.46.127
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2015MA70      Eur.Phys.J. A 51, 174 (2015)

J.-F.Martin, J.Taieb, A.Chatillon, G.Belier, G.Boutoux, A.Ebran, T.Gorbinet, L.Grente, B.Laurent, E.Pellereau, H.Alvarez-Pol, L.Audouin, T.Aumann, Y.Ayyad, J.Benlliure, E.Casarejos, D.Cortina Gil, M.Caamano, F.Farget, B.Fernandez-Dominguez, A.Heinz, B.Jurado, A.Kelic-Heil, N.Kurz, C.Nociforo, C.Paradela, S.Pietri, D.Ramos, J.-L.Rodriguez-Sanchez, C.Rodriguez-Tajes, D.Rossi, K.-H.Schmidt, H.Simon, L.Tassan-Got, J.Vargas, B.Voss, H.Weick

Studies on fission with ALADIN - Precise and simultaneous measurement of fission yields, total kinetic energy and total prompt neutron multiplicity at GSI

doi: 10.1140/epja/i2015-15174-0
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2015RO11      Phys.Rev. C 91, 064616 (2015)

J.L.Rodriguez-Sanchez, J.Benlliure, J.Taieb, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, G.Boutoux, E.Casarejos, A.Chatillon, D.Cortina-Gil, T.Gorbinet, A.Heinz, A.Kelic-Heil, B.Laurent, J.-F.Martin, C.Paradela, E.Pellereau, B.Pietras, D.Ramos, C.Rodriguez-Tajes, D.M.Rossi, H.Simon, J.Vargas, B.Voss

Complete characterization of the fission fragments produced in reactions induced by ²⁰⁸Pb projectiles on proton at 500A MeV

NUCLEAR REACTIONS ¹H(²⁰⁸Pb, F), E=500 MeV/nucleon; measured fission fragments, (fragment)(fragment)-coin, σ and mean velocities of fission fragments using SIS18 synchrotron and MUSIC detector system at GSI facility; deduced role of charge polarization and excitation energy gained by the fragments from analysis of correlations between the two fragments, parametrize the distance between two fission fragments at scission as function of the size of the fissioning system from analysis of the average velocities of the fission fragments, final neutron excess of the fission fragments. ^{58,59,60,61,62,63,64,65}Co, ^{60,61,62,63,64,65,66,67,68}Ni, ^{63,64,65,66,67,68,69,70}Cu, ^{64,65,66,67,68,69,70,71,72,73,74}Zn, ^{66,67,68,69,70,71,72,73,74,75,76,77}Ga, ^{69,70,71,72,73,74,75,76,77,78,79}Ge, ^{72,73,74,75,76,77,78,79,80,81}As, ^{74,75,76,77,78,79,80,81,82,83}Se, ^{78,79,80,81,82,83,84,85,86,87,88,89}Kr, ^{80,81,82,83,84,85,86,87,88,89,90,91,92}Rb, ^{82,83,84,85,86,87,88,89,90,91,92,93,94}Sr, ^{84,85,86,87,88,89,90,91,92,93,94,95,96,97}Y, ^{86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101}Zr, ^{88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103}Nb, ^{89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105}Mo, ^{93,94,95,96,97,98,99,100,101,102,103,104,105,106,107}Tc, ^{95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110}Ru, ^{97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112}Rh, ^{100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115}Pd, ^{104,105,106,107,108,109,110,111,112,113,114,115,116,117}Ag, ^{106,107,108,109,110,111,112,113,114,115,116,117,118}Cd, ^{109,110,111,112,113,114,115,116,117,118,119,120,121}In, ^{112,113,114,115,116,117,118,119,120,121}Sn, ^{114,115,116,117,118,119,120,121,122,123,124,125}Sb, ^{116,117,118,119,120,121,122,123,124,125,126,127,128}Te; deduced isotopic cross sections of the fission fragments with associated statistical and systematical uncertainties. Comparison with state-of-the-art model calculations using NCL4.6+ABLA07 codes.

doi: 10.1103/PhysRevC.91.064616
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2015RO18      Phys.Rev. C 92, 044612 (2015)

J.L.Rodriguez-Sanchez, J.Benlliure, H.Alvarez-Pol, L.Audouin, Y.Ayyad, G.Belier, G.Boutoux, E.Casarejos, A.Chatillon, D.Cortina-Gil, T.Gorbinet, A.Heinz, A.Kelic-Heil, B.Laurent, J.-F.Martin, C.Paradela, E.Pellereau, B.Pietras, D.Ramos, C.Rodriguez-Tajes, D.M.Rossi, H.Simon, J.Taieb, J.Vargas, B.Voss

Constraining the level density using fission of lead projectiles

NUCLEAR REACTIONS ¹H, ²⁷Al(²⁰⁸Pb, F), E=370, 500, 650 MeV/nucleon; measured spallation and fragmentation-induced fission fragments, fission σ(E), atomic-number distribution of final fission fragments using double multisampling ionization chamber (twin MUSIC) at GSI; deduced fission decay widths, and level densities at ground-state and at saddle-point deformations. Comparison with several theoretical model calculations, and benchmarking of data.

doi: 10.1103/PhysRevC.92.044612
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2014AY03      Phys.Rev. C 89, 054610 (2014)

Y.Ayyad, J.Benlliure, E.Casarejos, H.Alvarez-Pol, A.Bacquias, A.Boudard, M.Caamano, T.Enqvist, V.Fohr, A.Kelic-Heil, K.Kezzar, S.Leray, D.Mancusi, C.Paradela, D.Perez-Loureiro, R.Pleskac, J.L.Rodriguez-Sanchez, D.Tarrio

Proton-induced fission of ¹⁸¹Ta at high excitation energies

NUCLEAR REACTIONS ¹H(¹⁸¹Ta, F), E=300, 500, 800, 1000 MeV/nucleon; measured energy losses of the tantalum beam particles, and fission products at GSI facility; deduced proton-induced total fission σ(E), Mass, charge, and excitation energy distributions of prefragments, average fission lifetime, temperature dependence of dissipative and transient effects at small deformation. Comparison with previous experimental data, and model calculations using INCL+ABLA, ISABEL+ABLA, and INCL+GEMINI++ statistical model codes. Benchmarking state-of-the-art reaction codes

doi: 10.1103/PhysRevC.89.054610
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2014RO28      Phys.Rev. C 90, 064606 (2014)

J.L.Rodriguez-Sanchez, J.Benlliure, J.Taieb, A.Chatillon, C.Paradela, Y.Ayyad, G.Belier, G.Boutoux, E.Casarejos, T.Gorbinet, B.Laurent, J.-F.Martin, E.Pellereau, H.Alvarez-Pol, L.Audouin, D.Cortina-Gil, A.Heinz, A.Kelic-Heil, B.Pietras, D.Ramos, C.Rodriguez-Tajes, D.Rossi, H.Simon, L.Tassan-Got, J.Vargas, B.Voss

Proton-induced fission cross sections on ²⁰⁸Pb at high kinetic energies

NUCLEAR REACTIONS ¹H(²⁰⁸Pb, X), E=370, 500, 650 MeV/nucleon; measured fission fragment distributions, fission yields and fission σ(E) at GSI facility. Comparison with previous experimental data at E=50-1000 MeV/nucleon, and with Prokofiev's systematics. Benchmarking of model calculations using the intranuclear cascade code INCL4.6 coupled to the deexcitation code ABLA07. ²⁰⁸Pb(n, X), E=20-1000 MeV; analyzed fission σ(E).

doi: 10.1103/PhysRevC.90.064606
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