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NSR database version of April 11, 2024.

Search: Author = J.A.Lay

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2023CA02      Prog.Part.Nucl.Phys. 128, 103999 (2023)

F.Cappuzzello, H.Lenske, M.Cavallaro, C.Agodi, N.Auerbach, J.I.Bellone, R.Bijker, S.Burrello, S.Calabrese, D.Carbone, M.Colonna, G.De Gregorio, J.L.Ferreira, D.Gambacurta, H.Garcia-Tecocoatzi, A.Gargano, J.A.Lay, R.Linares, J.Lubian, E.Santopinto, O.Sgouros, V.Soukeras, A.Spatafora

Shedding light on nuclear aspects of neutrinoless double beta decay by heavy-ion double charge exchange reactions

doi: 10.1016/j.ppnp.2022.103999
Citations: PlumX Metrics

2023PE15      Phys.Rev. C 108, 044614 (2023)

S.S.Perrotta, M.Colonna, J.A.Lay

Clustering effects in the ⁶Li(p, ³He)⁴He reaction at astrophysical energies

doi: 10.1103/PhysRevC.108.044614
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2023PU01      Phys.Rev. C 108, 024613 (2023)

P.Punta, J.A.Lay, A.M.Moro

Transfer reactions of exotic nuclei including core deformations: ¹¹Be and ¹⁷C

NUCLEAR REACTIONS ¹⁶C(d, p)¹⁷C, E=17.2 MeV/nucleon; ¹¹Be(p, d)¹⁰Be, E=26.9, 35.3 MeV/nucleon; calculated σ(θ), spectroscopic factors. Adiabatic distorted-wave approximation (ADWA) calculations. Comparison to experimental data.

NUCLEAR STRUCTURE ¹⁷C, ¹¹Be; calculated levels, J, π, wave function components for ground- and first-excited states. Nilsson and a semimicroscopic particle-rotor model using antisymmetrized molecular dynamic calculations of the cores. Comparison to experimental data.

doi: 10.1103/PhysRevC.108.024613
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2021AL13      Phys.Rev. C 103, 054614 (2021)

M.A.G.Alvarez, M.Rodriguez-Gallardo, J.P.Fernandez-Garcia, J.Casal, J.A.Lay

Systematic calculations of reactions with exotic and stable nuclei to establish a unified theoretical approach

NUCLEAR REACTIONS ²⁰⁸Pb(¹¹Li, ¹¹Li), E=29.8 MeV; ²⁰⁸Pb(⁹Li, ⁹Li), E=29.5 MeV; ²⁰⁸Pb(⁹Be, ⁹Be), E=44.0 MeV; ²⁰⁸Pb(¹²C, ¹²C), E=75 MeV; ¹⁹⁷Au(¹¹Be, ¹¹Be), E=39.6 MeV; ¹²⁰Sn(⁶He, ⁶He), E=18 MeV; calculated and analyzed experimental data for elastic scattering cross sections; deduced systematic free optical model (OM) parameters using continuum discretized coupled channel (CDCC) calculations; deduced Coulomb dipole polarization (CDP) potential and trivial equivalent local potential (TELP).

doi: 10.1103/PhysRevC.103.054614
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2021CA28      Phys.Rev. C 104, 064609 (2021)

S.Calabrese, M.Cavallaro, D.Carbone, F.Cappuzzello, C.Agodi, S.Burrello, G.De Gregorio, J.L.Ferreira, A.Gargano, O.Sgouros, L.Acosta, P.Amador-Valenzuela, J.I.Bellone, T.Borello-Lewin, G.A.Brischetto, D.Calvo, V.Capirossi, E.R.Chavez Lomeli, I.Ciraldo, M.Colonna, F.Delaunay, H.Djapo, C.Eke, P.Finocchiaro, S.Firat, M.Fisichella, A.Foti, M.A.Guazzelli, A.Hacisalihoglu, F.Iazzi, L.La Fauci, J.A.Lay, R.Linares, J.Lubian, N.H.Medina, M.Moralles, J.R.B.Oliveira, A.Pakou, L.Pandola, H.Petrascu, F.Pinna, G.Russo, S.O.Solakci, V.Soukeras, G.Souliotis, A.Spatafora, D.Torresi, S.Tudisco, A.Yildirim, V.A.B.Zagatto

¹⁸O-induced single-nucleon transfer reactions on ⁴⁰Ca at 15.3A MeV within a multichannel analysis

NUCLEAR REACTIONS ⁴⁰Ca(¹⁸O, ¹⁷O)⁴¹Ca, E=15.3 MeV/nucleon; ⁴⁰Ca(¹⁸O, ¹⁹F)³⁹K, E=15.3 MeV/nucleon; measured reaction products, ¹⁷O and ¹⁹F ejectiles produced in one-neutron stripping and one-proton pickup reactions, excitation energy spectra, differential σ(θ) using MAGNEX magnetic spectrometer at the K800 Superconducting Cyclotron of INFN-LNS-Catania under NUMEN Collaboration. Comparison with theoretical calculations of σ(θ) distributions using distorted wave Born approximation (DWBA) and coupled channel Born approximation (CCBA) frameworks, with Sao Paulo optical potentials and shell model spectroscopic amplitudes. ¹⁷O, ¹⁹F, ⁴¹Ca, ³⁹K; deduced excitation energies from one-neutron transfer reactions. ¹⁷O, ⁴¹Ca; ¹⁹F, ³⁹K; calculated one-neutron spectroscopic amplitudes for ¹⁸O projectile and ⁴⁰Ca target overlaps using shell-model with the p-sd-mod and ZBM2-modified interactions; coupling schemes for the projectile-ejectile and target-residual systems for the one-proton and one-neutron transfer used in the optical model (OM) + DWBA and CCBA calculations.

doi: 10.1103/PhysRevC.104.064609
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8042.

2021HO15      Phys.Lett. B 822, 136710 (2021)

M.Holl, R.Kanungo, Z.H.Sun, G.Hagen, J.A.Lay, A.M.Moro, P.Navratil, T.Papenbrock, M.Alcorta, D.Connolly, B.Davids, A.Diaz Varela, M.Gennari, G.Hackman, J.Henderson, S.Ishimoto, A.I.Kilic, R.Krucken, A.Lennarz, J.Liang, J.Measures, W.Mittig, O.Paetkau, A.Psaltis, S.Quaglioni, J.S.Randhawa, J.Smallcombe, I.J.Thompson, M.Vorabbi, M.Williams

Proton inelastic scattering reveals deformation in ⁸He

NUCLEAR REACTIONS ¹H(⁸He, p), E=8.25 MeV/nucleon; measured reaction products, Ep, Ip. ⁸He; deduced σ(θ), resonance parameters, first 2⁺ state, quadrupole deformation parameter. Comparison with no-core shell model predictions. Charged particle spectroscopy station IRIS at TRIUMF in Canada.

doi: 10.1016/j.physletb.2021.136710
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2684.

2020FO02      Eur.Phys.J. A 56, 49 (2020)

L.Fortunato, C.E.Alonso, J.M.Arias, J.Casal, K.Hagino, J.A.Lay, E.G.Lanza, S.M.Lenzi, J.Lubian, T.Oishi, F.Perez-Bernal

An overview of the scientific contribution of Andrea Vitturi to nuclear physics

doi: 10.1140/epja/s10050-020-00034-x
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2020MO40      Phys.Lett. B 811, 135959 (2020)

A.M.Moro, J.A.Lay, J.Gomez Camacho

Determining B(E1) distributions of weakly bound nuclei from breakup cross sections using Continuum Discretized Coupled Channels calculations. Application to ¹¹Be

NUCLEAR REACTIONS ²⁰⁸Pb(¹¹Be, X), E=69, 520 MeV/nucleon; analyzed available data. ¹¹Be; deduced σ(θ), σ(E), B(E1) using of continuum discretized coupled channels (CDCC) calculations, in which both nuclear and Coulomb forces are taken into account to all orders.

doi: 10.1016/j.physletb.2020.135959
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2020PE15      Phys.Lett. B 811, 135939 (2020)

X.Pereira-Lopez, B.Fernandez-Dominguez, F.Delaunay, N.L.Achouri, N.A.Orr, W.N.Catford, M.Assie, S.Bailey, B.Bastin, Y.Blumenfeld, R.Borcea, M.Caamano, L.Caceres, E.Clement, A.Corsi, N.Curtis, Q.Deshayes, F.Farget, M.Fisichella, G.de France, S.Franchoo, M.Freer, J.Gibelin, A.Gillibert, G.F.Grinyer, F.Hammache, O.Kamalou, A.Knapton, T.Kokalova, V.Lapoux, J.A.Lay, B.Le Crom, S.Leblond, J.Lois-Fuentes, F.M.Marques, A.Matta, P.Morfouace, A.M.Moro, T.Otsuka, J.Pancin, L.Perrot, J.Piot, E.Pollacco, D.Ramos, C.Rodriguez-Tajes, T.Roger, F.Rotaru, M.Senoville, N.de Sereville, R.Smith, O.Sorlin, M.Stanoiu, I.Stefan, C.Stodel, D.Suzuki, T.Suzuki, J.C.Thomas, N.Timofeyuk, M.Vandebrouck, J.Walshe, C.Wheldon

Low-lying single-particle structure of ¹⁷C and the N=14 sub-shell closure

NUCLEAR REACTIONS ²H(¹⁶C, p)¹⁷C, E=17.2 MeV/nucleon; measured reaction products, Eγ, Iγ; deduced σ(θ), γ-ray energies, J, π, level scheme, spectroscopic factors. Comparison with shell model and particle-core model calculations.

doi: 10.1016/j.physletb.2020.135939
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD8032. Data from this article have been entered in the XUNDL database. For more information, click here.

2018CA16      Eur.Phys.J. A 54, 72 (2018)

F.Cappuzzello, C.Agodi, M.Cavallaro, D.Carbone, S.Tudisco, D.Lo Presti, J.R.B.Oliveira, P.Finocchiaro, M.Colonna, D.Rifuggiato, L.Calabretta, D.Calvo, L.Pandola, L.Acosta, N.Auerbach, J.Bellone, R.Bijker, D.Bonanno, D.Bongiovanni, T.Borello-Lewin, I.Boztosun, O.Brunasso, S.Burrello, S.Calabrese, A.Calanna, E.R.Chavez-Lomeli, G.D'Agostino, P.N.De Faria, G.De Geronimo, F.Delaunay, N.Deshmukh, J.L.Ferreira, M.Fisichella, A.Foti, G.Gallo, H.Garcia-Tecocoatzi, V.Greco, A.Hacisalihoglu, F.Iazzi, R.Introzzi, G.Lanzalone, J.A.Lay, F.La Via, H.Lenske, R.Linares, G.Litrico, F.Longhitano, J.Lubian, N.H.Medina, D.R.Mendes, M.Moralles, A.Muoio, A.Pakou, H.Petrascu, F.Pinna, S.Reito, A.D.Russo, G.Russo, G.Santagati, E.Santopinto, R.B.B.Santos, O.Sgouros, M.A.G.da Silveira, S.O.Solakci, G.Souliotis, V.Soukeras, A.Spatafora, D.Torresi, R.Magana Vsevolodovna, A.Yildirim, V.A.B.Zagatto

The NUMEN project: NUclear Matrix Elements for Neutrinoless double beta decay

doi: 10.1140/epja/i2018-12509-3
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2018LE14      Phys.Rev. C 98, 044620 (2018)

H.Lenske, J.I.Bellone, M.Colonna, J.-A.Lay, for the NUMEN Collaboration

Theory of single-charge exchange heavy-ion reactions

NUCLEAR REACTIONS ⁴⁰Ca, ¹¹⁶Sn(¹⁸O, ¹⁸O), (¹⁸O, ¹⁸F), (¹⁸O, X), E=25-950 MeV; calculated total reaction σ(E), elastic scattering differential σ(E, θ), single charge exchange DWBA differential σ(θ, E), differential σ(E), and distortion factors using DWBA calculations; deduced transition form factors for Fermi type non-spin-flip and Gamow-Teller-type spin-flip transitions using a revised approach to the theoretical modeling of nuclear single-charge exchange (SCE) heavy-ion reactions in the framework of DWBA theory. ¹⁸O, ⁴⁰Ca; calculated proton and neutron HFB ground-state densities, QRPA response functions for ¹⁸O to ¹⁸F and ⁴⁰Ca to ⁴⁰K transitions. Comparison with experimental data.

doi: 10.1103/PhysRevC.98.044620
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2017AY03      Phys.Rev. C 96, 021303 (2017)

Y.Ayyad, J.Lee, A.Tamii, J.A.Lay, A.O.Macchiavelli, N.Aoi, B.A.Brown, H.Fujita, Y.Fujita, E.Ganioglu, K.Hatanaka, T.Hashimoto, T.Ito, T.Kawabata, Z.Li, H.Liu, H.Matsubara, K.Miki, H.J.Ong, G.Potel, I.Sugai, G.Susoy, A.Vitturi, H.D.Watanabe, N.Yokota, J.Zenihiro

Investigating neutron-proton pairing in sd-shell nuclei via (p, ³He) and (³He, p) transfer reactions

NUCLEAR REACTIONS ²⁴Mg, ³²S(³He, p), E=25 MeV; ²⁸Si, ⁴⁰Ca, ²⁴Mg(p, ³He), E=65 MeV; measured proton and ³He spectra, angular distributions, cross sections using Grand Raiden spectrometer at RCNP-Osaka. ²⁶Al, ³⁸K, ²²Na, ³⁴Cl; deduced levels, J, π, experimental ratios between the transfer cross sections to the 0+ and the 1+ states in the final nuclei; analyzed np pairing phenomena. DWBA calculations taking into account shell model calculations with the USDB interaction.

doi: 10.1103/PhysRevC.96.021303
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2551. Data from this article have been entered in the XUNDL database. For more information, click here.

2017PE06      Phys.Rev.Lett. 118, 152502 (2017)

V.Pesudo, M.J.G.Borge, A.M.Moro, J.A.Lay, E.Nacher, J.Gomez-Camacho, O.Tengblad, L.Acosta, M.Alcorta, M.A.G.Alvarez, C.Andreoiu, P.C.Bender, R.Braid, M.Cubero, A.Di Pietro, J.P.Fernandez-Garcia, P.Figuera, M.Fisichella, B.R.Fulton, A.B.Garnsworthy, G.Hackman, U.Hager, O.S.Kirsebom, K.Kuhn, M.Lattuada, G.Marquinez-Duran, I.Martel, D.Miller, M.Moukaddam, P.D.O'Malley, A.Perea, M.M.Rajabali, A.M.Sanchez-Benitez, F.Sarazin, V.Scuderi, C.E.Svensson, C.Unsworth, Z.M.Wang

Scattering of the Halo Nucleus ¹¹Be on ¹⁹⁷Au at Energies around the Coulomb Barrier

NUCLEAR REACTIONS ¹⁹⁷Au(¹¹Be, X), E=31.9 MeV; measured reaction products; deduced σ, σ(θ), B(E1). Comparison with theoretical calculations.

doi: 10.1103/PhysRevLett.118.152502
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2259.

2017ST07      Acta Phys.Pol. B48, 615 (2017)

E.Strano, D.Torresi, M.Mazzocco, N.Keeley, A.Boiano, C.Boiano, P.Di Meo, A.Guglielmetti, M.La Commara, P.Molini, C.Manea, C.Parascandolo, D.Pierroutsakou, C.Signorini, F.Soramel, D.Filipescu, A.Gheorghe, T.Glodariu, J.Grebosz, S.Jeong, Y.H.Kim, J.A.Lay, H.Miyatake, M.Nicoletto, A.Pakou, K.Rusek, O.Sgouros, V.Soukeras, L.Stroe, N.Toniolo, A.Vitturi, Y.Watanabe, K.Zerva

Discrimination of Processes and Optical Model Analysis in the ¹⁷O+⁵²Ni Collision Around the Coulomb Barrier

NUCLEAR REACTIONS ⁵⁸Ni(¹⁷O, ¹⁷O), E=40-50 MeV; measured reaction products; deduced σ(θ); calculated σ(θ) using self-normalization formula and using optical model; deduced imaginary radius parameter, optical model parameters. Compared with ⁵⁸Ni(¹⁶O, ¹⁶O) and ⁵⁸Ni(¹⁷F, ¹⁷F).

doi: 10.5506/APhysPolB.48.615
Citations: PlumX Metrics

2016ER04      Phys.Rev. C 94, 024610 (2016)

M.J.Ermamatov, F.Cappuzzello, J.Lubian, M.Cubero, C.Agodi, D.Carbone, M.Cavallaro, J.L.Ferreira, A.Foti, V.N.Garcia, A.Gargano, J.A.Lay, S.M.Lenzi, R.Linares, G.Santagati, A.Vitturi

Two-neutron transfer analysis of the ¹⁶O(¹⁸O, ¹⁶O) ¹⁸O reaction

NUCLEAR REACTIONS ¹⁶O(¹⁸O, ¹⁸O), (¹⁸O, ¹⁶O), E=84 MeV; measured ¹⁸O spectra, σ(θ) for elastic and 2n-transfer to the g.s. and first 2+ state of ¹⁸O using the MAGNEX spectrometer at INFN-LNS-Catania. ¹⁸O; deduced levels, J, π; analyzed one- and two-step processes with finite range coupled reaction channel and second order distorted wave Born approximation, and deduced dominance of one-step transfer mechanism; calculated spectroscopic amplitudes for 1n-, and 2n-transfer channels. Comparison of experimental σ(θ) data with DWBA calculations.

doi: 10.1103/PhysRevC.94.024610
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0826. Data from this article have been entered in the XUNDL database. For more information, click here.

2016LA17      J.Phys.(London) G43, 085103 (2016)

J.A.Lay, C.E.Alonso, L.Fortunato, A.Vitturi

Continuum discretised BCS approach for weakly bound nuclei

NUCLEAR STRUCTURE ^{16,18,20,22,24,26,28}O, ^{12,14,16,18,20,22,24}C; calculated two-neutron separation energy, pairing strength, density of occupation. Comparison with experimental data.

doi: 10.1088/0954-3899/43/8/085103
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2016LA20      Phys.Rev. C 94, 021602 (2016)

J.A.Lay, R.de Diego, R.Crespo, A.M.Moro, J.M.Arias, R.C.Johnson

Evidence of strong dynamic core excitation in ¹⁹C resonant break-up

NUCLEAR REACTIONS ¹H(¹⁹C, X), E=70 MeV/nucleon; calculated differential σ(θ) for the first and the second 5/2+ resonance using XCDCC and XDDWBA approaches in valence-core model; deduced role of core excitations in the resonant breakup of ¹⁹C. Comparison with experimental data.

NUCLEAR STRUCTURE ¹⁹C; calculated levels, J, π using shell-model with OXBASH and the WBP interaction, and within semimicroscopic core-plus-valence-particle model (P-AMD) using ¹⁸C as an inert core. Comparison with experimental data.

doi: 10.1103/PhysRevC.94.021602
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2016MO06      Acta Phys.Pol. B47, 821 (2016)

A.M.Moro, J.Lei, M.Gomez-Ramos, J.M.Arias, R.de Diego, J.Gomez-Camacho, J.A.Lay

Recent Developments for the Calculation of Elastic and Non-elastic Breakup of Weakly-bound Nuclei

doi: 10.5506/APhysPolB.47.821
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2016ST18      Phys.Rev. C 94, 024622 (2016)

E.Strano, D.Torresi, M.Mazzocco, N.Keeley, A.Boiano, C.Boiano, P.Di Meo, A.Guglielmetti, M.la Commara, P.Molini, C.Manea, C.Parascandolo, D.Pierroutsakou, C.Signorini, F.Soramel, D.Filipescu, A.Gheorghe, T.Glodariu, J.Grebosz, S.Jeong, Y.H.Kim, J.A.Lay, H.Miyatake, M.Nicoletto, A.Pakou, K.Rusek, O.Sgouros, V.Soukeras, L.Stroe, N.Toniolo, A.Vitturi, Y.Watanabe, K.Zerva

¹⁷O + ⁵⁸Ni scattering and reaction dynamics around the Coulomb barrier

NUCLEAR REACTIONS ⁵⁸Ni(¹⁷O, ¹⁷O), (¹⁷O, X), E=40.0, 42.5, 45.0, 47.5, 50.0 MeV; measured reaction products, σ(θ) for elastic scattering, angular distributions for 1n-stripping process leading to states in ⁵⁹Ni, angular distributions for target excitation to its first excited 2+ state, total σ(E). Optical model analysis using Woods-Saxon (WS) potentials and code FRESCO for elastic scattering data.

doi: 10.1103/PhysRevC.94.024622
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0825.

2015FE09      Phys.Rev. C 92, 044608 (2015)

J.P.Fernandez-Garcia, M.Cubero, L.Acosta, M.Alcorta, M.A.G.Alvarez, M.J.G.Borge, L.Buchmann, C.A.Diget, H.A.Falou, B.Fulton, H.O.U.Fynbo, D.Galaviz, J.Gomez-Camacho, R.Kanungo, J.A.Lay, M.Madurga, I.Martel, A.M.Moro, I.Mukha, T.Nilsson, M.Rodriguez-Gallardo, A.M.Sanchez-Benitez, A.Shotter, O.Tengblad, P.Walden

Simultaneous analysis of the elastic scattering and breakup channel for the reaction ¹¹Li+²⁰⁸Pb at energies near the Coulomb barrier

NUCLEAR REACTIONS ²⁰⁸Pb(¹¹Li, ¹¹Li), (¹¹Li, X), (⁹Li, X), E=24.3, 29.8 MeV, [¹¹Li beam from Ta(p, X), E=500 MeV from radioactive ion beam facility at TRIUMF]; measured ^9,11Li elastic scattering and ⁹Li fragment spectra using detector telescopes, σ(θ), reaction and breakup σ; deduced energy distributions of the outgoing ⁹Li fragments from breakup of ¹¹Li, B(E1) distributions of ¹¹Li. Comparison to coupled-reaction-channel (CRC) and continuum-discretized coupled-channel (CDCC) calculations.

doi: 10.1103/PhysRevC.92.044608
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2195.

2015KU29      Phys.Rev. C 92, 054604 (2015)

R.Kumar, J.A.Lay, A.Vitturi

Nuclear fusion as a probe for octupole deformation in ²²⁴Ra

NUCLEAR REACTIONS ¹⁴⁴Ba(¹⁶O, X), E(cm)=45-70 MeV; ²²⁴Ra(¹⁶O, X), E(cm)=70-95 MeV; calculated barrier distributions, fusion double-differential σ(E) including quadrupole and octupole deformations for the targets. Coupled-channel formalism using ingoing-wave boundary conditions (IWBC).

doi: 10.1103/PhysRevC.92.054604
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2015MA47      Phys.Rev. C 92, 024615 (2015)

M.Mazzocco, D.Torresi, D.Pierroutsakou, N.Keeley, L.Acosta, A.Boiano, C.Boiano, T.Glodariu, A.Guglielmetti, M.La Commara, J.A.Lay, I.Martel, C.Mazzocchi, P.Molini, C.Parascandolo, A.Pakou, V.V.Parkar, M.Romoli, K.Rusek, A.M.Sanchez-BenItez, M.Sandoli, O.Sgouros, C.Signorini, R.Silvestri, F.Soramel, V.Soukeras, E.Stiliaris, E.Strano, L.Stroe, K.Zerva

Direct and compound-nucleus reaction mechanisms in the ⁷Be + ⁵⁸Ni system at near-barrier energies

NUCLEAR REACTIONS ⁵⁸Ni(⁷Be, ⁷Be), (⁷Be, ³He), (⁷Be, α), E=22 MeV, [⁷Be beam from ¹H(⁷Li, ⁷Be), E=34.2 MeV using EXOTIC facility at LNL-Legnaro]; measured reaction products, angular distributions of ³He and ⁴He, quasielastic σ(θ), breakup σ(θ) using ΔE-E telescopes of the DINEX setup, part of the GLORIA detector array; deduced correlation plot of energy versus detection angle θ_lab, quasielastic σ(θ), reconstructed Q value spectrum. ⁵⁸Ni(⁷Be, ⁸Be), (⁷Be, ⁶Be), E=22 MeV; deduced σ(θ) for neutron pickup and stripping processes. Monte Carlo simulations for the elastic scattering process and inelastic excitation. Optical-model, continuum-discretized-coupled-channel (CDCC) calculations using the code FRESCO, and DWBA calculations. Discussed role of breakup, ³He-stripping, 1n-stripping, and 1n-pickup processes.

doi: 10.1103/PhysRevC.92.024615
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2186.

2014DE15      Phys.Rev. C 89, 064609 (2014)

R.de Diego, J.M.Arias, J.A.Lay, A.M.Moro

Continuum-discretized coupled-channels calculations with core excitation

NUCLEAR REACTIONS ¹H(¹¹Be, X), E=10, 63.7, 200 MeV/nucleon; calculated differential breakup σ(θ, E). ⁶⁴Zn(¹¹Be, X), E=28.7 MeV; calculated quasielastic and breakup differential σ(θ). ²⁰⁸Pb(¹¹Be, X), E=69 MeV/nucleon; calculated breakup differential σ(θ). Scattering of a two-body halo nucleus. Dipole strength distribution for ¹¹Be deduced from Coulomb breakup experiments. Extended version of Continuum-discretized coupled-channels (XCDCC) method with core excitation. Comparison with experimental data.

doi: 10.1103/PhysRevC.89.064609
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2014KU03      Phys.Rev. C 89, 027601 (2014)

R.Kumar, J.A.Lay, A.Vitturi

Enhanced subbarrier fusion for proton halo nuclei

NUCLEAR REACTIONS ⁵⁸Ni(⁸B, X), E=20 MeV; ⁵⁸Ni(¹¹Be, X), E=17 MeV; calculated ion-ion potentials, fusion cross sections, barrier distributions for entrance and breakup channels ⁵⁸Ni(⁷Be, X), E=17.2 MeV and ⁵⁸Ni(¹⁰Be, X), E=14.8 MeV. Broglia and Winther parameterization for break-up processes in subbarrier fusion involving proton and neutron halo nuclei.

doi: 10.1103/PhysRevC.89.027601
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2014LA02      Phys.Rev. C 89, 014333 (2014)

J.A.Lay, A.M.Moro, J.M.Arias, Y.Kanada-En'yo

Semi-microscopic folding model for the description of two-body halo nuclei

NUCLEAR STRUCTURE ¹⁹C, ¹¹Be; calculated levels, J, π, spectroscopic factors for ground state and low-lying resonances for one-neutron halo nuclei. ¹⁰Be, ¹⁸C; calculated neutron and proton transition densities for ground state and first 2+ state, rms radii. Particle-plus-core model (PRM), particle-core folding potential based in antisymmetrized molecular dynamics (AMD) transition densities (P-AMD), and shell model calculations using WBT interaction. Comparison of levels, J, π with experimental data.

doi: 10.1103/PhysRevC.89.014333
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2014LA08      Phys.Rev. C 89, 034618 (2014)

J.A.Lay, L.Fortunato, A.Vitturi

Investigating nuclear pairing correlations via microscopic two-particle transfer reactions: The cases of ¹¹²Sn, ³²Mg, and ⁶⁸Ni

NUCLEAR REACTIONS ¹¹⁰Sn(t, p), E=15.7 MeV; ¹¹⁰Sn(¹⁸O, ¹⁶O), (¹⁴C, ¹²C), E not given; ³⁰Mg(t, p), E=5.4 MeV; ³⁰Mg(¹⁸O, ¹⁶O), E=26 MeV; ⁶⁴Ni(t, p), E=7.8 MeV; ⁶⁴Ni(¹⁴C, ¹²C), E=32.4 MeV; analyzed σ(θ) for 2-neutron transfer reactions by zero-range distorted wave Born approximation (DWBA). Shell evolution for exotic nuclei.

doi: 10.1103/PhysRevC.89.034618
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2014PE05      Acta Phys.Pol. B45, 375 (2014)

V.Pesudo, M.J.G.Borge, A.M.Moro, E.Nacher, L.Acosta, M.Alcorta, M.A.G.Alvarez, G.C.Ball, P.C.Bender, R.Braid, M.Cubero, A.di Pietro, J.P.Fernandez-Garcia, P.Figuera, M.Fisichella, B.R.Fulton, A.B.Garnsworthy, J.Gomez-Camacho, G.Hackman, O.S.Kirsebom, K.Kuhn, R.Kruecken, M.Lattuada, J.A.Lay, G.Marquinez-Duran, I.Martel, D.Miller, M.Moukaddam, P.D.O'Malley, A.Perea, M.M.Rajabali, A.M.Sanchez-Benitez, F.Sarazin, V.Scuderi, C.E.Svensson, O.Tengblad, C.Unsworth, Z.M.Wang

Reaction of the Halo Nucleus ¹¹Be on Heavy Targets at Energies Around the Coulomb Barrier

NUCLEAR REACTIONS ¹⁹⁷Au(¹¹Be, X), E=31.9 MeV; measured reaction products; deduced σ. Comparison with CDCC calculations.

doi: 10.5506/APhysPolB.45.375
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2013FE04      Phys.Rev.Lett. 110, 142701 (2013)

J.P.Fernandez-Garcia, M.Cubero, M.Rodriguez-Gallardo, L.Acosta, M.Alcorta, M.A.G.Alvarez, M.J.G.Borge, L.Buchmann, C.A.Diget, H.A.Falou, B.R.Fulton, H.O.U.Fynbo, D.Galaviz, J.Gomez-Camacho, R.Kanungo, J.A.Lay, M.Madurga, I.Martel, A.M.Moro, I.Mukha, T.Nilsson, A.M.Sanchez-Benitez, A.Shotter, O.Tengblad, P.Walden

¹¹Li Breakup on ²⁰⁸Pb at Energies Around the Coulomb Barrier

NUCLEAR REACTIONS ²⁰⁸Pb(¹¹Li, X), (¹¹Li, ⁹Li), E=24.3, 29.8 MeV; measured reaction products. ^9,11Li; deduced breakup probabilities angular and B(E1) distributions. Comparison with CDCC calculations, available data.

doi: 10.1103/PhysRevLett.110.142701
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Data from this article have been entered in the XUNDL database. For more information, click here.

2012BO20      J.Phys.:Conf.Ser. 381, 012085 (2012)

M.J.G.Borge, M.Cubero, J.P.Fernandez-Garcia, L.Acosta, M.Alcorta, M.A.G.Alvarez, L.Buchmann, C.A.Diget, H.A.Falou, B.Fulton, H.O.U.Fynbo, D.Galaviz, J.Gomez-Camacho, R.Kanungo, J.A.Lay, M.Madurga, I.Mukha, T.Nilsson, A.M.Sanchez-Benitez, A.Shotter, O.Tengblad, P.Walden

Scattering of the halo nucleus ¹¹Li and its core ⁹Li on ²⁰⁸Pb at energies around the Coulomb barrier

NUCLEAR REACTIONS ²⁰⁸Pb(⁹Li, ⁹Li), (¹¹Li, ¹¹Li), E≈Coulomb barrier; measured ⁹Li, ¹¹Li halo nucleus using DSSSD and SSSD telescopes; calculated σ(θ) using optical model and also CDCC (continuum-discretized CC); deduced σ(θ) at E(cm)=23.0, 28.2 MeV, ¹¹Li breakup σ. Preliminary.

doi: 10.1088/1742-6596/381/1/012085
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2012CU02      Phys.Rev.Lett. 109, 262701 (2012)

M.Cubero, J.P.Fernandez-Garcia, M.Rodriguez-Gallardo, L.Acosta, M.Alcorta, M.A.G.Alvarez, M.J.G.Borge, L.Buchmann, C.A.Diget, H.Al Falou, B.R.Fulton, H.O.U.Fynbo, D.Galaviz, J.Gomez-Camacho, R.Kanungo, J.A.Lay, M.Madurga, I.Martel, A.M.Moro, I.Mukha, T.Nilsson, A.M.Sanchez-Benitez, A.Shotter, O.Tengblad, P.Walden

Do Halo Nuclei Follow Rutherford Elastic Scattering at Energies Below the Barrier? The Case of ¹¹Li

NUCLEAR REACTIONS ²⁰⁸Pb(¹¹Li, ¹¹Li), (⁹Li, ⁹Li), E=23.9-43 MeV. ^9,11Li; measured reaction products; deduced σ(θ), Rutherford σ. Four-body CDCC calculations with code FRESCO calculations.

doi: 10.1103/PhysRevLett.109.262701
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1974. Data from this article have been entered in the XUNDL database. For more information, click here.

2012LA12      Phys.Rev. C 85, 054618 (2012)

J.A.Lay, A.M.Moro, J.M.Arias, J.Gomez-Camacho

Particle motion in a deformed potential using a transformed oscillator basis

NUCLEAR STRUCTURE ¹¹Be; calculated wave functions of ground and excited states, level energies, level density, B(E1), B(E2). Pseudostate (PS) basis for a particle moving in a deformed potential, transformed harmonic oscillator (THO) functions, using a local scale transformation (LST). ¹⁰Be+n two body model. Comparison with experimental data.

doi: 10.1103/PhysRevC.85.054618
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2012MO32      Phys.Rev.Lett. 109, 232502 (2012)

A.M.Moro, J.A.Lay

Interplay Between Valence and Core Excitation Mechanisms in the Breakup of Halo Nuclei

NUCLEAR REACTIONS ¹²C(¹¹Be, X), E=70 MeV/nucleon; analyzed available data; deduced spectroscopic factors, σ(θ), resonant breakup of ¹¹Be. Comparison with DWBA calculations.

doi: 10.1103/PhysRevLett.109.232502
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2010LA06      Eur.Phys.J. A 44, 261 (2010)

J.A.Lay, D.V.Fedorov, A.S.Jensen, E.Garrido, C.Romero-Redondo

Three-body structure of low-lying ¹⁸Ne states

NUCLEAR REACTIONS ¹⁶O(p, p), E=0.5-2.5 MeV; calculated σ(θ).

NUCLEAR STRUCTURE ¹⁸Ne; calculated two-proton separation energies, radii, B(E2), B(M1), levels, J, π using hyperspherical adiabatic expansion method.

doi: 10.1140/epja/i2010-10943-9
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2010LA09      Phys.Rev. C 82, 024605 (2010)

J.A.Lay, A.M.Moro, J.M.Arias, J.Gomez-Camacho

Exploring continuum structures with a pseudo-state basis

NUCLEAR REACTIONS ¹²C, ²⁰⁸Pb(⁶He, ⁶He), E=240 MeV/nucleon; ¹²C(¹¹Be, ¹¹Be), E=67 MeV/nucleon; calculated differential σ(E), σ(θ), energy breakup differential σ(E), B(E1) and B(E2) transition probabilities for the ⁶He=α+2n system, and scattering phase shifts. Calculations based on treatment of a weakly bound system in terms square-integrable functions, or pseudo-state (PS) generated by a parametric local scale transformation (LST) to the transformed harmonic oscillator (HO) basis. Comparison with experimental data.

doi: 10.1103/PhysRevC.82.024605
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