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NSR database version of April 24, 2024.

Search: Author = S.Typel

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2023SP05      Eur.Phys.J. A 59, 180 (2023)

C.Spitaleri, S.Typel, S.S.Perrotta, C.Fatuzzo

Study of the energy dependence of the ⁶Li(p, α)³He reaction at energies of astrophysical interest

NUCLEAR REACTIONS ⁶Li(p, α), E<1 MeV; analyzed available data; deduced σ, S-factor using theoretical description of laboratory data in a R-matrix calculation that was fitted to published data.

doi: 10.1140/epja/s10050-023-01096-3
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2022AN24      Eur.Phys.J. A 58, 254 (2022)

D.Antonopoulou, E.Bozzo, C.Ishizuka, D.I.Jones, M.Oertel, C.Providencia, L.Tolos, S.Typel

CompOSE: a repository for neutron star equations of state and transport properties

doi: 10.1140/epja/s10050-022-00908-2
Citations: PlumX Metrics

2022BU20      Eur.Phys.J. A 58, 120 (2022)

S.Burrello, S.Typel

Embedding short-range correlations in relativistic density functionals through quasi-deuterons

doi: 10.1140/epja/s10050-022-00765-z
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2022TY01      Eur.Phys.J. A 58, 221 (2022)

S.Typel, M.Oertel, T.Klahn, D.Chatterjee, V.Dexheimer, C.Ishizuka, M.Mancini, J.Novak, H.Pais, C.Providencia, Ad.R.Raduta, M.Servillat, L.Tolos, for the CompOSE Core Collaboration

CompOSE reference manual

doi: 10.1140/epja/s10050-022-00847-y
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2021BH12      Phys.Rev. C 104, 045801 (2021)

A.Bhattacharyya, U.Datta, A.Rahaman, S.Chakraborty, T.Aumann, S.Beceiro Novo, K.Boretzky, C.Caesar, B.V.Carlson, W.N.Catford, M.Chartier, D.Cortina-Gil, P.Das, G.D.Angelis, P.Diaz Fernandez, H.Emling, H.Geissel, D.Gonzalez-Diaz, M.Heine, H.Johansson, B.Jonson, N.Kalantar-Nayestanaki, T.Kroll, R.Krucken, J.Kurcewicz, C.Langer, T.Le Bleis, Y.Leifels, J.Marganiec, G.Munzenberg, T.Nilsson, C.Nociforo, V.Panin, S.Paschalis, R.Plag, R.Reifarth, M.V.Ricciardi, C.Rigollet, D.Rossi, C.Scheidenberger, H.Scheit, H.Simon, Y.Togano, S.Typel, Y.Utsuno, A.Wagner, F.Wamers, H.Weick, J.S.Winfield

Neutron capture cross sections of light neutron-rich nuclei relevant for r-process nucleosynthesis

NUCLEAR REACTIONS ²⁰⁸Pb, ¹²C(²⁹Na, X), (³⁰Na, X), (³³Mg, X), (³⁵Al, X), E=410-430 MeV/nucleon, [secondary ^29,30Na, ³³Mg, ³⁵Al beams from fragmentation of 540 MeV/nucleon ⁴⁰Ar beam, followed by separation of ions of interest using the FRS-ALADIN-LAND apparatus at GSI]; measured reaction products, Eγ, Iγ, invariant mass spectra in coincidence with the sum energy of γ rays in different energy ranges using an array of 162 NaI(Tl) detectors for γ rays emitted from the excited core of the projectiles after Coulomb dissociation; deduced number of E1 type virtual photons from Coulomb, invariant mass spectra of breakup of incident beams into ²⁸Na, ²⁹Na, ³²Mg and ³⁴Al and one neutron in each case, and analyzed using direct breakup model. ²⁹Na, ³⁰Na, ³³Mg, (γ, n), E^*=2-16 MeV; ³⁵Al(γ, n), E^*=5-20 MeV, virtual photons from Coulomb breakup of incident beams; deduced photoabsorption σ(E) as function of excitation energy. ^28,29Na, ³²Mg, ³⁴Al(n, γ), E<13 MeV; deduced neutron capture σ(E) using the photoabsorption cross sections. ^28,29Na, ³²Mg, ³⁴Al(n, γ), T₉=0.01-100; deduced astrophysical total reaction rates at the onset and at the end of the r-process. ¹⁴C(n, γ), E(cm)=10-1000 keV; analyzed previous experimental cross section data, and compared with theoretical calculations. ^29,30Na, ³³Mg, ³⁵Al; deduced spectroscopic factors for the occupied orbitals of valence neutron(s) in the ground states from Coulomb breakup cross sections, and compiled previous experimental spectroscopic factors. Relevance to neutrino-driven wind model of core-collapse supernovae, and r-process nucleosynthesis.

doi: 10.1103/PhysRevC.104.045801
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2021SP02      Eur.Phys.J. A 57, 20 (2021)

C.Spitaleri, S.Typel, C.A.Bertulani, A.M.Mukhamedzhanov, T.Kajino, M.Lattuada, A.Cvetinovic, S.Messina, G.L.Guardo, N.Soic, M.Milin, S.S.Perrotta, C.Li, P.Colovic, G.D'Agata, D.Dell'Aquila, C.G.Fatuzzo, M.Gulino, S.Q.Hou, M.La Cognata, D.Lattuada, D.Nurkic, R.Popocovski, N.Skukan, S.Szilner, O.Trippella, M.Uroic, N.Vukman

The ³He + ⁵He → α+α reaction below the Coulomb barrier via the Trojan Horse Method

NUCLEAR REACTIONS ⁹Be(³He, 2α), E=4 MeV; ³He(⁵He, α), E(cm)<1 Mev; measured reaction products, Eα, Iα; deduced two α-particles σ(θ, E), σ(θ). Comparison with theoretical calculations, Trojan Horse Method (THM).

doi: 10.1140/epja/s10050-020-00324-4
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD1037.

2021SP03      Eur.Phys.J. A 57, 170 (2021)

R.Sparta, L.Lamia, M.La Cognata, C.Spitaleri, G.G.Rapisarda, G.L.Guardo, S.Cherubini, G.D'Agata, A.Di Pietro, P.Figuera, M.Gulino, D.Lattuada, M.Lattuada, S.Palmerini, R.G.Pizzone, S.Romano, M.L.Sergi, A.Tumino, S.Typel

¹⁰B(n, α₀)⁷Li and ¹⁰B(n, α₁)⁷Li reactions measured via Trojan Horse Method

NUCLEAR REACTIONS ²H(¹⁰B, α⁷Be), E=28 MeV; measured reaction products, Eα, Iα; deduced momentum distribution for the spectator particle, σ(θ), σ(E), ¹⁰B(n, α) σ using the Trojan Horse Method.

doi: 10.1140/epja/s10050-021-00481-0
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2021TY02      Eur.Phys.J. A 57, 284 (2021)

S.Typel

CompOSE - A repository of equations of state for astrophysical applications

doi: 10.1140/epja/s10050-021-00593-7
Citations: PlumX Metrics

2020FI08      Phys.Rev. C 102, 055807 (2020)

T.Fischer, S.Typel, G.Ropke, N.-U.F.Bastian, G.Martinez-Pinedo

Medium modifications for light and heavy nuclear clusters in simulations of core collapse supernovae: Impact on equation of state and weak interactions

NUCLEAR STRUCTURE ^2,3,4H, ^3,4,5He; calculated effective nuclear binding energies using generalized relativistic density-functional (gRDF) approach, including a shift due to Pauli blocking, and quantum statistical (QS) model. ¹n, ^1,2,3,4,5H, ^3,4,5He; Z>2; calculated mass fractions as a function of the rest mass density and temperature, radial profiles of velocity, rest mass density, electron fraction, temperature and entropy per baryon, mass fractions, and the composition by the average A and Z as a function of the enclosed baryon mass and radius using the gRDF(DD2) model, and HS(DD2) modified NSE model, before and after core bounce of core collapse supernovae; developed a new equation of state (EOS) for infinite nuclear matter with the inclusion of an improved description of nuclear bound states with special emphasis on hydrogen and helium isotopes, including novel states of ⁴H, ⁵H and ⁵He.

NUCLEAR REACTIONS ²H(ν, e^-)pp, (ν-bar, e⁺)nn, (e^-, ν)nn, (e⁺, ν-bar)pp; ^3,4H(ν, e^-)³He/⁴He; ^3,4He(ν-bar, e⁺)³H/⁴H; derived expressions for medium-dependent charged current reaction rates, in fully inelastic kinematics for processes involving ²H, and in the elastic approximation for processes involving ³H/³He and ⁴H/⁴He; implemented new nuclear equation of state (EOS) and weak reaction rates involving light nuclei into supernova model; simulated core-collapse supernova post-bounce phase; analyzed subsequent supernova dynamics and neutrino emission. Investigated role of heavy nuclear clusters and weakly-bound light nuclear clusters for core collapse supernova studies.

doi: 10.1103/PhysRevC.102.055807
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2020PI11      Eur.Phys.J. A 56, 199 (2020)

R.G.Pizzone, C.Spampinato, R.Sparta, M.Couder, W.Tan, V.Burjan, G.D'Agata, G.L.Guardo, M.La Cognata, L.Lamia, J.Mrazek, S.Palmerini, S.Typel, A.Tumino, M.Wiescher, S.Anguilar, D.Bardayan, D.Blankstein, L.Boccioli, L.Callahan, S.M.Cha, K.Y.Chae, A.M.Clark, B.Frentz, M.R.Hall, A.Gula, S.Henderson, R.Kelmar, M.S.Kwag, I.Indelicato, M.La Commara, D.Lattuada, Q.Liu, J.Long, M.Mazzocco, A.Majumdar, S.McGuinness, A.Nelson, A.A.Oliva, P.O'Malley, P.M.Prajapati, G.G.Rapisarda, S.Romano, M.L.Sergi, C.Seymour, M.Skulski, C.Spitaleri, J.Wilkinson

Indirect measurement of the ³He(n, p)³H reaction cross section at Big Bang energies

NUCLEAR REACTIONS ²H(³He, pt), E=9 MeV; measured reaction products, Ep, Ip; deduced σ for ³He(n, p) reaction using the Trojan Horse Method (THM).

doi: 10.1140/epja/s10050-020-00212-x
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14716.

2020TY01      Eur.Phys.J. A 56, 160 (2020)

S.Typel, D.A.Terrero

Parametrisations of relativistic energy density functionals with tensor couplings

doi: 10.1140/epja/s10050-020-00172-2
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2020TY02      Eur.Phys.J. A 56, 286 (2020)

S.Typel

⁵He(³He, ⁴He)⁴He as a three-body reaction via a continuum resonance in the n+⁴He system, A tribute to Mahir S. Hussein

NUCLEAR REACTIONS ⁵He(³He, α)⁴He, E<5 MeV; calculated σ, astrophysical reaction rates in a three-body reaction via a continuum resonance in the n+⁴He system.

doi: 10.1140/epja/s10050-020-00293-8
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2019RI02      Phys.Rev. C 100, 021301R (2019)

P.C.Ries, H.Pai, T.Beck, J.Beller, M.Bhike, V.Derya, U.Gayer, J.Isaak, B.Loher, Krishichayan, L.Mertes, N.Pietralla, C.Romig, D.Savran, M.Schilling, W.Tornow, S.Typel, V.Werner, J.Wilhelmy, A.Zilges, M.Zweidinger

Valence-shell dependence of the pygmy dipole resonance: E1 strength difference in ^{50, 54}Cr

NUCLEAR REACTIONS ^50,54Cr(γ, γ'), (polarized γ, γ'), E=7.5, 9.5 MeV bremsstrahlung beam from Darmstadt, and 5.5-9.8 MeV Compton-scattered polarized beam from TUNL; measured Eγ, Iγ, azimuthal angular distributions, integrated cross sections using nuclear resonance fluorescence (NRF) method at the Darmstadt High Intensity Photon Setup (DHIPS), and at the High-Intensity γ-ray Source facility (HIγS) of TUNL. ^50,54Cr; deduced levels, pygmy dipole resonances (PDR), J, π, widths of transitions to g.s., branching ratios, B(E1), B(M1), B(E2), Thomas-Reiche-Kuhn (TRK) energy-weighted sum rule for ^50,52,54Cr; calculated neutron skin thicknesses for ^{48,49,50,51,52,53,54,55,56}Cr.

doi: 10.1103/PhysRevC.100.021301
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Data from this article have been entered in the XUNDL database. For more information, click here.

2018TY01      45, 114001 (2018)

S.Typel

Equations of state for astrophysical simulations from generalized relativistic density functionals

doi: 10.1088/1361-6471/aadea5
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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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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0919. Data from this article have been entered in the XUNDL database. For more information, click here.

2017AU07      Phys.Rev.Lett. 119, 262501 (2017)

T.Aumann, C.A.Bertulani, F.Schindler, S.Typel

Peeling Off Neutron Skins from Neutron-Rich Nuclei: Constraints on the Symmetry Energy from Neutron-Removal Cross Sections

NUCLEAR REACTIONS ¹²C, ^124,132Sn(p, p), (n, p), E<1000 MeV; analyzed available data; deduced dependence of neutron-removal σ on neutron skin.

doi: 10.1103/PhysRevLett.119.262501
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2017CH36      Phys.Rev. C 96, 034301 (2017)

S.Chakraborty, U.Datta, T.Aumann, S.Beceiro Novo, K.Boretzky, C.Caesar, B.V.Carlson, W.N.Catford, M.Chartier, D.Cortina-Gil, G.De Angelis, P.Diaz Fernandez, H.Emling, O.Ershova, L.M.Fraile, H.Geissel, D.Gonzalez-Diaz, H.Johansson, B.Jonson, N.Kalantar-Nayestanaki, T.Kroll, R.Krucken, C.Langer, T.Le Bleis, Y.Leifels, J.Marganiec, G.Munzenberg, M.A.Najafi, T.Nilsson, C.Nociforo, V.Panin, R.Plag, A.Rahaman, R.Reifarth, M.V.Ricciardi, C.Rigollet, D.Rossi, C.Scheidenberger, H.Scheit, H.Simon, J.T.Taylor, Y.Togano, S.Typel, Y.Utsuno, A.Wagner, F.Wamers, H.Weick, J.S.Winfield

Ground-state configuration of neutron-rich ³⁵Al via Coulomb breakup

NUCLEAR REACTIONS C, Pb(³⁵Al, ³⁴Al), E=403 MeV/nucleon, [secondary ³⁵Al beam from fragmentation of 531 MeV/nucleon ⁴⁰Ar primary beam followed by separation of reaction products using FRS separator at GSI]; measured four-momenta of the projectile, fragments, and other decay products such as fragments, neutrons, and γ rays after secondary reaction using Large Area Neutron Detector for neutrons and Crystal Ball array of NaI(Tl) detectors for γ detection at GSI; deduced inclusive differential Coulomb dissociation (CD) cross section of ³⁵Al breaking up into a neutron and ³⁴Al fragment in its ground state and isomer. ³⁴Al; deduced levels, Coulomb dissociation σ, spectroscopic factors. ³⁵Al; deduced J, π, configurations, spectroscopic factor for the ground state.

doi: 10.1103/PhysRevC.96.034301
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Data from this article have been entered in the XUNDL database. For more information, click here.

2017RA03      J.Phys.(London) G44, 045101 (2017)

A.Rahaman, U.Datta, T.Aumann, S.Beceiro Novo, K.Boretzky, C.Caesar, B.V.Carlson, W.N.Catford, S.Chakraborty, M.Chartier, D.Cortina-Gil, G.De Angelis, P.Diaz Fernandez, H.Emling, O.Ershova, L.M.Fraile, H.Geissel, D.Gonzalez-Diaz, H.Johansson, B.Jonson, N.Kalantar-Nayestanaki, T.Kroll, R.Krucken, J.Kurcewicz, C.Langer, T.Le Bleis, Y.Leifels, J.Marganiec, G.Munzenberg, M.A.Najafi, T.Nilsson, C.Nociforo, V.Panin, S.Paschalis, R.Plag, R.Reifarth, M.V.Ricciardi, C.Rigollet, D.Rossi, C.Scheidenberger, H.Scheit, H.Simon, J.T.Taylor, Y.Togano, S.Typel, V.Volkov, A.Wagner, F.Wamers, H.Weick, M.Weigand, J.S.Winfield, D.Yakorev, M.Zoric

Coulomb breakup of neutron-rich ^{29, 30}Na isotopes near the island of inversion

NUCLEAR REACTIONS ²⁰⁸Pb(²⁹Na, n), (³⁰Na, n), E=400-430 MeV/nucleon; measured reaction products, Eγ, Iγ. ^28,29Na; deduced σ, J, π, spectroscopic factors. Comparison with available data.

doi: 10.1088/1361-6471/aa594d
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2016AL07      Eur.Phys.J. A 52, 69 (2016)

D.Alvarez-Castillo, A.Ayriyan, S.Benic, D.Blaschke, H.Grigorian, S.Typel

New class of hybrid EoS and Bayesian M - R data analysis

doi: 10.1140/epja/i2016-16069-2
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2016AL22      Eur.Phys.J. A 52, 232 (2016)

D.Alvarez-Castillo, S.Benic, D.Blaschke, S.Han, S.Typel

Neutron star mass limit at 2M_(.) supports the existence of a CEP

doi: 10.1140/epja/i2016-16232-9
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2016DA06      Phys.Rev. C 94, 034304 (2016)

U.Datta, A.Rahaman, T.Aumann, S.Beceiro Novo, K.Boretzky, C.Caesar, B.V.Carlson, W.N.Catford, S.Chakraborty, M.Chartier, D.Cortina-Gil, G.de Angelis, P.Diaz Fernandez, H.Emling, O.Ershova, L.M.Fraile, H.Geissel, D.Gonzalez-Diaz, B.Jonson, H.Johansson, N.Kalantar-Nayestanaki, T.Kroll, R.Krucken, J.Kurcewicz, C.Langer, T.Le Bleis, Y.Leifels, J.Marganiec, G.Munzenberg, M.A.Najafi, T.Nilsson, C.Nociforo, V.Panin, S.Paschalis, R.Plag, R.Reifarth, V.Ricciardi, D.Rossi, H.Scheit, C.Scheidenberger, H.Simon, J.T.Taylor, Y.Togano, S.Typel, V.Volkov, A.Wagner, F.Wamers, H.Weick, M.Weigand, J.S.Winfield, D.Yakorev, M.Zoric

Direct experimental evidence for a multiparticle-hole ground state configuration of deformed ³³Mg

NUCLEAR REACTIONS ¹²C, ²⁰⁸Pb(³³Mg, ³²Mg), E=400 MeV/nucleon, [³³Mg secondary beam produced in fragmentation of 540 MeV/nucleon ⁴⁰Ar beam]; measured reaction products, Eγ, Iγ, (³³Mg)γ-coin, partial and total inclusive Coulomb dissociation (CD) cross sections for breakup of ³³Mg into n+³²Mg using FRS-ALADIN-LAND arrangement at GSI facility ³²Mg; deduced levels, spectroscopic factors. ³³Mg; deduced multiparticle-hole ground state configuration, and occupancy by valence neutrons by s and p orbitals.

doi: 10.1103/PhysRevC.94.034304
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Data from this article have been entered in the XUNDL database. For more information, click here.

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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Data from this article have been entered in the XUNDL database. For more information, click here.

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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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2403. Data from this article have been entered in the XUNDL database. For more information, click here.

2016TY01      Eur.Phys.J. A 52, 16 (2016)

S.Typel

Variations on the excluded-volume mechanism

doi: 10.1140/epja/i2016-16016-3
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2015AN02      Nucl.Phys. A938, 92 (2015)

S.Antic, S.Typel

Neutron star equations of state with optical potential constraint

doi: 10.1016/j.nuclphysa.2015.03.004
Citations: PlumX Metrics

2015HE13      Phys.Rev. C 91, 045805 (2015)

M.Hempel, K.Hagel, J.Natowitz, G.Ropke, S.Typel

Constraining supernova equations of state with equilibrium constants from heavy-ion collisions

NUCLEAR REACTIONS ^112,124Sn(⁴⁰Ar, X), (⁶⁴Zn, X), E=47 MeV/nucleon; analyzed experimental data obtained using NIMROD 4π multidetector at Texas A and M University for yields of light particles; deduced temperature and densities, equilibrium constants (ECs) for α, d, t, ³He, mass fraction of heavy nuclei. Cluster formation in heavy-ion collisions, and equation of state (EOS) of warm and dense nuclear matter. Quantum statistical (QS) approach.

doi: 10.1103/PhysRevC.91.045805
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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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2014DU14      Phys.Rev. C 90, 055203 (2014)

M.Dutra, O.Lourenco, S.S.Avancini, B.V.Carlson, A.Delfino, D.P.Menezes, C.Providencia, S.Typel, J.R.Stone

Relativistic mean-field hadronic models under nuclear matter constraints

doi: 10.1103/PhysRevC.90.055203
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2014TU03      Astrophys.J. 785, 96 (2014)

A.Tumino, R.Sparta, C.Spitaleri, A.M.Mukhamedzhanov, S.Typel, R.G.Pizzone, E.Tognelli, S.Degl'Innocenti, V.Burjan, V.Kroha, Z.Hons, M.La Cognata, L.Lamia, J.Mrazek, S.Piskor, P.G.Prada Moroni, G.G.Rapisarda, S.Romano, M.L.Sergi

New Determination of the ²H(d, p)³H and ²H(d, n)³He Reaction Rates at Astrophysical Energies

NUCLEAR REACTIONS ²H(³He, pt), E=17 MeV;²H(³He, n³He), E=18 MeV; measured reaction products, Ep, Ip; deduced σ(θ), S-factors, reaction rates, inputs for FRANEC evolutionary code. Comparison with available data.

doi: 10.1088/0004-637X/785/2/96
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0651.

2014TY01      Eur.Phys.J. A 50, 17 (2014)

S.Typel, H.H.Wolter, G.Ropke, D.Blaschke

Effects of the liquid-gas phase transition and cluster formation on the symmetry energy

doi: 10.1140/epja/i2014-14017-x
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2014TY03      Phys.Rev. C 89, 064321 (2014)

S.Typel

Neutron skin thickness of heavy nuclei with α-particle correlations and the slope of the nuclear symmetry energy

NUCLEAR STRUCTURE ^{108,112,116,120,124,128,132}Sn; calculated radial density distribution of α and neutrons. ^{107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,123,124,124,125,126,127,128,129,130,131,132,133}Sn; calculated rms radii of neutrons and protons, number of α particles and skin thickness as function of mass number. ²⁰⁸Pb; calculated neutron skin thickness as function nuclear symmetry energy slope. Relativistic Thomas-Fermi (RTF) approximation. Investigation of appearance of α clusters on surfaces of heavy nuclei surfaces.

doi: 10.1103/PhysRevC.89.064321
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2013RO01      Nucl.Phys. A897, 70 (2013)

G.Ropke, N.-U.Bastian, D.Blaschke, T.Klahn, S.Typel, H.H.Wolter

Cluster-virial expansion for nuclear matter within a quasiparticle statistical approach

doi: 10.1016/j.nuclphysa.2012.10.005
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2012BE54      J.Phys.:Conf.Ser. 381, 012115 (2012)

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

Coulomb Dissociation of ²⁷P

NUCLEAR REACTIONS Pb(²⁷P, X), E=498 MeV/nucleon. ²⁷P measured thick target Coulomb excitation, dissociation, relative energy of the outgoing system; deduced σ, resonances, levels, J, π. Compared with other data and calculations.

doi: 10.1088/1742-6596/381/1/012115
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2012HA04      Phys.Rev.Lett. 108, 062702 (2012)

K.Hagel, R.Wada, L.Qin, J.B.Natowitz, S.Shlomo, A.Bonasera, G.Ropke, S.Typel, Z.Chen, M.Huang, J.Wang, H.Zheng, S.Kowalski, C.Bottosso, M.Barbui, M.R.D.Rodrigues, K.Schmidt, D.Fabris, M.Lunardon, S.Moretto, G.Nebbia, S.Pesente, V.Rizzi, G.Viesti, M.Cinausero, G.Prete, T.Keutgen, Y.El Masri, Z.Majka

Experimental Determination of In-Medium Cluster Binding Energies and Mott Points in Nuclear Matter

NUCLEAR REACTIONS ^112,124Sn(⁴⁰Ar, X), (⁶⁴Zn, X), E=47 MeV/nucleon; measured reaction products, Eα, Iα. ^2,3H, ^3,4He; deduced temperature and density dependence, binding energies, Pauli blocking effects in a quantum statistical approach.

doi: 10.1103/PhysRevLett.108.062702
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2012QI06      Phys.Rev.Lett. 108, 172701 (2012)

L.Qin, K.Hagel, R.Wada, J.B.Natowitz, S.Shlomo, A.Bonasera, G.Ropke, S.Typel, Z.Chen, M.Huang, J.Wang, H.Zheng, S.Kowalski, M.Barbui, M.R.D.Rodrigues, K.Schmidt, D.Fabris, M.Lunardon, S.Moretto, G.Nebbia, S.Pesente, V.Rizzi, G.Viesti, M.Cinausero, G.Prete, T.Keutgen, Y.El Masri, Z.Majka, Y.G.Ma

Laboratory Tests of Low Density Astrophysical Nuclear Equations of State

NUCLEAR REACTIONS ^112,124Sn(⁴⁰Ar, X), (⁶⁴Zn, X)²H/³H/³He/⁴He, E=47 MeV/nucleon; measured reaction products, Eα, Iα; deduced yields, equilibrium constants for α particle production. Astrophysical equation of state calculations.

doi: 10.1103/PhysRevLett.108.172701
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2012TU05      J.Phys.:Conf.Ser. 337, 012017 (2012)

A.Tumino, C.Spitaleri, A.M.Mukhamedzhanov, S.Typel, M.Aliotta, V.Burjan, M.G.del Santo, G.G.Kiss, V.Kroha, Z.Hons, M.La Cognata, L.Lamia, J.Mrazek, R.G.Pizzone, S.Piskor, G.G.Rapisarda, S.Romano, M.L.Sergi, R.Sparta

Bare nucleus S(E) factor of the ²H(d, p)³H and ²H(d, n)³He reactions via the Trojan Horse Method

NUCLEAR REACTIONS ²H(³He, pT), (³He, n³He), E(cm)≈0.002-2 MeV; measured reaction products; deduced ²H(d, p) and ²H(d, n) S-factor using THM (Trojan horse method) with quasifree kinematics. Compared with other THM and also with direct data.

doi: 10.1088/1742-6596/337/1/012017
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2012VO04      Nucl.Phys. A887, 42 (2012)

M.D.Voskresenskaya, S.Typel

Constraining mean-field models of the nuclear matter equation of state at low densities

doi: 10.1016/j.nuclphysa.2012.05.006
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2012WA20      Phys.Rev. C 85, 064618 (2012)

R.Wada, K.Hagel, L.Qin, J.B.Natowitz, Y.G.Ma, G.Ropke, S.Shlomo, A.Bonasera, S.Typel, Z.Chen, M.Huang, J.Wang, H.Zheng, S.Kowalski, C.Bottosso, M.Barbui, M.R.D.Rodrigues, K.Schmidt, D.Fabris, M.Lunardon, S.Moretto, G.Nebbia, S.Pesente, V.Rizzi, G.Viesti, M.Cinausero, G.Prete, T.Keutgen, Y.El Masri, Z.Majka

Nuclear matter symmetry energy at 0.03 ≤ ρ/ρ0

NUCLEAR REACTIONS ^112,124Sn(⁴⁰Ar, X), (⁶⁴Zn, X), E=47 MeV/nucleon; measured charged particle and neutron spectra and multiplicity; deduced coalescence parameters and model volumes as a function of surface velocity, nuclear temperature, density, isoscaling parameter, symmetry free energy and symmetry entropy versus density. NIMROD multidetector at Texas A

doi: 10.1103/PhysRevC.85.064618
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2012ZH34      Phys.Rev.Lett. 109, 102501 (2012)

Y.H.Zhang, H.S.Xu, Yu.A.Litvinov, X.L.Tu, X.L.Yan, S.Typel, K.Blaum, M.Wang, X.H.Zhou, Y.Sun, B.A.Brown, Y.J.Yuan, J.W.Xia, J.C.Yang, G.Audi, X.C.Chen, G.B.Jia, Z.G.Hu, X.W.Ma, R.S.Mao, B.Mei, P.Shuai, 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

Mass Measurements of the Neutron-Deficient ⁴¹Ti, ⁴⁵Cr, ⁴⁹Fe, and ⁵³Ni Nuclides: First Test of the Isobaric Multiplet Mass Equation in fp-Shell Nuclei

ATOMIC MASSES ⁴¹Ti, ⁴⁵Cr, ⁴⁹Fe, ⁵³Ni; measured ion revolution time; deduced mass excess values, test for the isobaric multiplet mass equation in fp-shell nuclei. Shell model calculation, comparison with available data.

doi: 10.1103/PhysRevLett.109.102501
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2011AD03      Rev.Mod.Phys. 83, 195 (2011)

E.G.Adelberger, A.Garcia, R.G.H.Robertson, K.A.Snover, A.B.Balantekin, K.Heeger, M.J.Ramsey-Musolf, A.B.Balantekin, K.Heeger, M.J.Ramsey-Musolf, D.Bemmerer, A.Junghans, D.Bemmerer, A.Junghans, C.A.Bertulani, K.-W.Chen, H.Costantini, P.Prati, M.Couder, E.Uberseder, M.Wiescher, R.Cyburt, B.Davids, S.J.Freedman, M.Gai, D.Gazit, L.Gialanella, G.Imbriani, U.Greife, M.Hass, W.C.Haxton, T.Itahashi, K.Kubodera, K.Langanke, D.Leitner, M.Leitner, P.Vetter, L.Winslow, L.E.Marcucci, T.Motobayashi, A.Mukhamedzhanov, R.E.Tribble, F.M.Nunes, T.-S.Park, R.Schiavilla, E.C.Simpson, C.Spitaleri, F.Strieder, H.-P.Trautvetter, K.Suemmerer, S.Typel

Solar fusion cross sections. II. The pp chain and CNO cycles

NUCLEAR REACTIONS ²H(p, γ), ³He(³He, 2p), (α, γ), (p, e), ⁷Be, ¹²C, ¹⁴N, ¹⁵N, ¹⁷O(p, γ), ¹⁵N, ^16,17,18O(p, α), E<3 MeV; analyzed and evaluated experimental data; deduced recommended values and uncertainties.

doi: 10.1103/RevModPhys.83.195
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2011HE20      Phys.Rev. C 84, 055804 (2011)

M.Hempel, J.Schaffner-Bielich, S.Typel, G.Ropke

Light clusters in nuclear matter: Excluded volume versus quantum many-body approaches

doi: 10.1103/PhysRevC.84.055804
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2011TU04      Few-Body Systems 50, 323 (2011)

A.Tumino, C.Spitaleri, A.Mukhamedzhanov, S.Typel, M.Aliotta, V.Burjan, M.G.del Santo, G.G.Kiss, V.Kroha, Z.Hons, M.La Cognata, L.Lamia, J.Mrazek, R.G. Pizzone, S.Piskor, G.G.Rapisarda, S.Romano, M.L.Sergi, R.Sparta

Indirect Study of the ²H(d, p)³H and ²H(d, n)³He Reactions at Astrophysical Energies via the Trojan Horse Method

NUCLEAR REACTIONS ²H(d, p), (d, n), E(cm)=0.02, 0.13, 0.98, 1.25 MeV; measured reaction products, proton spectra; deduced σ(θ). Trojan horse method.

doi: 10.1007/s00601-010-0213-6
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2011TU06      Phys.Lett. B 700, 111 (2011), Erratum Phys.Lett. B 705, 546 (2011)

A.Tumino, C.Spitaleri, A.M.Mukhamedzhanov, S.Typel, M.Aliotta, V.Burjan, M.G.del Santo, G.G.Kiss, V.Kroha, Z.Hons, M.La Cognata, L.Lamia, J.Mrazek, R.G.Pizzone, S.Piskor, G.G.Rapisarda, S.Romano, M.L.Sergi, R.Sparta

Low-energy d+d fusion reactions via the Trojan Horse Method

NUCLEAR REACTIONS ²H(³He, X), E=18 MeV; measured reaction products, ³H-p and ³He-p coin.; deduced σ(θ), S-factors for ²H(d, p), (d, n) reactions using Trojan Horse Method. Comparison with experimental data.

doi: 10.1016/j.physletb.2011.05.001
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0651.

2010HA28      Phys.Rev. C 82, 065803 (2010)

F.Hammache, M.Heil, S.Typel, D.Galaviz, K.Summerer, A.Coc, F.Uhlig, F.Attallah, M.Caamano, D.Cortina, H.Geissel, M.Hellstrom, N.Iwasa, J.Kiener, P.Koczon, B.Kohlmeyer, P.Mohr, E.Schwab, K.Schwarz, F.Schumann, P.Senger, O.Sorlin, V.Tatischeff, J.P.Thibaud, E.Vangioni, A.Wagner, W.Walus

High-energy breakup of ⁶Li as a tool to study the Big Bang nucleosynthesis reaction ²H(α, γ)⁶Li

NUCLEAR REACTIONS ²⁰⁸Pb(⁶Li, dα), E=150 MeV/nucleon; measured ²H and α particle spectra, angles, positions and energy loss of ²H and α particles, cross section, σ(θ) of excited ⁶Li; deduced E1, E2, and total S₂₄ factors. Comparison with previous experimental data and GEANT simulations. ²H(α, γ); deduced astrophysical nuclear reaction rates from breakup of ⁶Li. Predictions for the ⁶Li/¹H production ratio in Big Bang nucleosynthesis.

NUCLEAR REACTIONS ²⁰⁸Pb(d, d), E=110, 140 MeV; ²⁰⁸Pb(α, α), E=480, 699 MeV; ²⁰⁸Pb(⁶Li, ⁶Li), E=600 MeV; analyzed σ(θ) data; deduced Woods-Saxon potential parameters.

doi: 10.1103/PhysRevC.82.065803
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2010NA07      Phys.Rev.Lett. 104, 202501 (2010)

J.B.Natowitz, G.Ropke, S.Typel, D.Blaschke, A.Bonasera, K.Hagel, T.Klahn, S.Kowalski, L.Qin, S.Shlomo, R.Wada, H.H.Wolter

Symmetry Energy of Dilute Warm Nuclear Matter

NUCLEAR REACTIONS ⁹²Mo, ¹⁹⁷Au(⁶⁴Zn, X), E=35 MeV/nucleon; analyzed heavy-ion collision data; deduced free neutron and proton yields, temperatures, densities, symmetry energy. Quantum-statistical model of nuclear matter.

doi: 10.1103/PhysRevLett.104.202501
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2010TY01      Phys.Rev. C 81, 015803 (2010)

S.Typel, G.Ropke, T.Klahn, D.Blaschke, H.H.Wolter

Composition and thermodynamics of nuclear matter with light clusters

doi: 10.1103/PhysRevC.81.015803
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2008BA11      J.Phys.(London) G35, 014028 (2008)

G.Baur, S.Typel

Coulomb dissociation, a tool for nuclear astrophysics

doi: 10.1088/0954-3899/35/1/014028
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2008LA06      J.Phys.(London) G35, 014014 (2008)

M.La Cognata, C.Spitaleri, R.E.Tribble, T.Al-Abdullah, A.Banu, S.Cherubini, V.Crucilla, C.Fu, V.Goldberg, M.Gulino, L.Lamia, A.Mukhamedzhanov, R.G.Pizzone, S.M.R.Puglia, G.G.Rapisarda, S.Romano, M.L.Sergi, G.Tabacaru, L.Trache, S.Tudisco, A.Tumino, S.Typel, Y.Zhai

Indirect measurement of the ¹⁸O(p, α)¹⁵N reaction rate through the THM

NUCLEAR REACTIONS ²H(¹⁸O, α¹⁵N)n, E=54 MeV; measured charged particle spectra, angular and momentum distributions, cross sections; ¹⁸O(p, α)¹⁵N, E(cm)=0-1.5 MeV; deduced S-factor, reaction rate. Trojan Horse Method.

doi: 10.1088/0954-3899/35/1/014014
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2008TY01      J.Phys.(London) G35, 014003 (2008)

S.Typel

Coulomb dissociation of ⁸B and ⁶Li

NUCLEAR REACTIONS Pb(⁸B, p⁷Be), E=254 MeV/nucleon; Pb(⁶Li, X), E=150 MeV/nucleon; analyzed Coulomb dissociation cross sections; ⁷Be(p, γ), E≈20 keV; ⁴He(d, γ), E=0-3 MeV; calculated S-factors.

doi: 10.1088/0954-3899/35/1/014003
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2008TY02      Nucl.Phys. A806, 156 (2008)

S.Typel

Pseudospin, supersymmetry and the shell structure of atomic nuclei

doi: 10.1016/j.nuclphysa.2008.03.018
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2008TY03      Eur.Phys.J. A 38, 355 (2008)

S.Typel, G.Baur

Scaling laws and higher-order effects in Coulomb excitation of neutron halo nuclei

doi: 10.1140/epja/i2008-10864-4
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2007BA39      Prog.Part.Nucl.Phys. 59, 122 (2007)

G.Baur, S.Typel

Direct reactions with exotic nuclei, nuclear structure and astrophysics

doi: 10.1016/j.ppnp.2006.12.002
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2007BA41      Phys.Rev. C 75, 058801 (2007)

G.Baur, K.A.Snover, S.Typel

E0 emission in α + ¹²C fusion at astrophysical energies

NUCLEAR REACTIONS ¹²C(α, γ), E(cm)< 1.5 MeV; calculated the contribution of E0 emission compared to E1 and E2 emissions.

doi: 10.1103/PhysRevC.75.058801
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2007KL05      Nucl.Phys. A788, 145c (2007)

A.Klimkiewicz, P.Adrich, K.Boretzky, M.Fallot, T.Aumann, D.Cortina-Gil, U.Datta Pramanik, Th.W.Elze, H.Emling, H.Geissel, M.Hellstroem, K.L.Jones, J.V.Kratz, R.Kulessa, Y.Leifels, C.Nociforo, R.Palit, H.Simon, G.Surowka, K.Summerer, S.Typel, W.Walus

Dipole response of neutron-rich Sn isotopes

NUCLEAR REACTIONS Be(²³⁸U, X), E=550 MeV/nucleon; measured fragment yields. ¹²C, ²⁰⁸Pb(¹²⁹Sn, X), (¹³⁰Sn, X), (¹³¹Sn, X), (¹³²Sn, X), (¹³³Sn, X), E≈ 500 MeV/nucleon; measured En, Eγ, nγ-coin; deduced electromagnetic dissociation σ(E). ^{129,130,131,132,133}Sn deduced dipole strength distributions, B(E1), pygmy and giant dipole resonance parameters. Comparison with RPA calculations. ^40,44,48Ca, ^116,124Sn, ¹³⁸Ba, ¹⁴⁰Ce, ¹⁴²Nd, ¹⁴⁴Sm, ²⁰⁸Pb(γ, γ'), E not given; analyzed Eγ, Iγ. ^40,44,48Ca, ^116,124Sn, ¹³⁸Ba, ¹⁴⁰Ce, ¹⁴²Nd, ¹⁴⁴Sm, ²⁰⁸Pb deduced B(E1).

doi: 10.1016/j.nuclphysa.2007.01.075
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2006KL08      Phys.Rev. C 74, 035802 (2006)

T.Klahn, D.Blaschke, S.Typel, E.N.E.van Dalen, A.Faessler, C.Fuchs, T.Gaitanos, H.Grigorian, A.Ho, E.E.Kolomeitsev, M.C.Miller, G.Ropke, J.Trumper, D.N.Voskresensky, F.Weber, H.H.Wolter

Constraints on the high-density nuclear equation of state from the phenomenology of compact stars and heavy-ion collisions

doi: 10.1103/PhysRevC.74.035802
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2006SC04      Phys.Rev. C 73, 015806 (2006)

F.Schumann, S.Typel, F.Hammache, K.Summerer, F.Uhlig, I.Bottcher, D.Cortina, A.Forster, M.Gai, H.Geissel, U.Greife, E.Grosse, N.Iwasa, P.Koczon, B.Kohlmeyer, R.Kulessa, H.Kumagai, N.Kurz, M.Menzel, T.Motobayashi, H.Oeschler, A.Ozawa, M.Ploskon, W.Prokopowicz, E.Schwab, P.Senger, F.Strieder, C.Sturm, Z.-Yu.Sun, G.Surowka, A.Wagner, W.Walus

Low-energy cross section of the ⁷Be(p, γ)⁸B solar fusion reaction from the Coulomb dissociation of ⁸B

NUCLEAR REACTIONS ²⁰⁸Pb(⁸B, p⁷Be), E=254 MeV/nucleon; measured fragment spectra, angular correlations. ⁷Be(p, γ), E=low; deduced astrophysical S-factor.

doi: 10.1103/PhysRevC.73.015806
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2213.

2005DA38      J.Phys.(London) G31, S1583 (2005)

U.Datta Pramanik, P.Adrich, T.Aumann, K.Boretzky, D.Cortina, Th.W.Elze, H.Emling, H.Geissel, M.Hellstrom, K.L.Jones, L.H.Khiem, J.V.Kratz, R.Kulessa, Y.Leifels, G.Munzenberg, C.Nociforo, R.Palit, H.Scheit, H.Simon, K.Summerer, S.Typel, W.Walus, H.Weick

Coulomb breakup of psd-shell neutron-rich nuclei

NUCLEAR REACTIONS Pb(¹⁷C, n¹⁶C), (²³O, n²²O), E ≈ 400-600 MeV/nucleon; measured Eγ, Iγ, Coulomb dissociation σ. ¹⁴C(n, γ), E(cm)=23 keV; deduced capture σ.

doi: 10.1088/0954-3899/31/10/037
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2005DA43      Eur.Phys.J. A 25, Supplement 1, 339 (2005)

U.Datta Pramanik, T.Aumann, K.Boretzky, D.Cortina, Th.W.Elze, H.Emling, H.Geissel, M.Hellstrom, K.L.Jones, L.H.Khiem, J.V.Kratz, R.Kulessa, Y.Leifels, G.Munzenberg, C.Nociforo, R.Palit, H.Scheit, H.Simon, K.Summerer, S.Typel, W.Walus, H.Weick

Studies of light neutron-rich nuclei near the drip line

NUCLEAR REACTIONS Pb(¹⁷C, n¹⁶C), (²³O, n²²O), E ≈ 400-600 MeV/nucleon; measured Eγ, Iγ, Coulomb dissociation σ. ¹⁴C(n, γ), E(cm)=23 keV; deduced capture σ.

doi: 10.1140/epjad/i2005-06-173-2
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2005LA25      Nucl.Phys. A758, 98c (2005)

M.La Cognata, A.Musumarra, C.Spitaleri, A.Tumino, C.Bonomo, S.Cherubini, P.Figuera, L.Lamia, M.G.Pellegriti, A.Rinollo, R.G.Pizzone, C.Rolfs, S.Romano, D.Schurmann, F.Strieder, S.Tudisco, S.Typel

Study of the ³He(d, p)⁴He reaction through the Trojan Horse Method

NUCLEAR REACTIONS ⁶Li(³He, pα), E=5, 6 MeV; measured Ep, Eα, angular correlations. ³He(d, p), E=low; deduced astrophysical S-factor.

doi: 10.1016/j.nuclphysa.2005.05.021
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2005LA33      Phys.Rev. C 72, 065802 (2005)

M.La Cognata, C.Spitaleri, A.Tumino, S.Typel, S.Cherubini, L.Lamia, A.Musumarra, R.G.Pizzone, A.Rinollo, C.Rolfs, S.Romano, D.Schurmann, F.Strieder

Bare-nucleus astrophysical factor of the ³He(d, p)⁴He reaction via the "Trojan horse" method

NUCLEAR REACTIONS ⁶Li(³He, pα), E=5, 6 MeV; measured Ep, Eα, pα-coin, σ(θ), angular correlations; deduced reaction mechanism features. ³He(d, p), E(cm) ≈ 0-600 keV; deduced σ, astrophysical S-factors. Trojan horse method.

doi: 10.1103/PhysRevC.72.065802
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1661.

2005LI30      Phys.Rev.Lett. 95, 042501 (2005)

Yu.A.Litvinov, T.J.Burvenich, H.Geissel, Yu.N.Novikov, Z.Patyk, C.Scheidenberger, F.Attallah, G.Audi, K.Beckert, F.Bosch, M.Falch, B.Franzke, M.Hausmann, Th.Kerscher, O.Klepper, H.-J.Kluge, C.Kozhuharov, K.E.G.Lobner, D.G.Madland, J.A.Maruhn, G.Munzenberg, F.Nolden, T.Radon, M.Steck, S.Typel, H.Wollnik

Isospin Dependence in the Odd-Even Staggering of Nuclear Binding Energies

NUCLEAR STRUCTURE Hf, W; compiled, analyzed neutron and proton pair-gap energies, odd-even staggering effect. Several models compared with data.

doi: 10.1103/PhysRevLett.95.042501
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2005NO01      Phys.Lett. B 605, 79 (2005)

C.Nociforo, K.L.Jones, L.H.Khiem, P.Adrich, T.Aumann, B.V.Carlson, D.Cortina-Gil, U.Datta Pramanik, Th.W.Elze, H.Emling, H.Geissel, M.Hellstrom, J.V.Kratz, R.Kulessa, T.Lange, Y.Leifels, H.Lenske, E.Lubkiewicz, G.Munzenberg, R.Palit, H.Scheit, H.Simon, K.Summerer, S.Typel, E.Wajda, W.Walus, H.Weick, and the LAND-FRS Collaboration

Coulomb breakup of ²³O

NUCLEAR REACTIONS Pb(²³O, n²²O), E=422 MeV/nucleon; measured En, Eγ, Iγ, (fragment)γ-, nγ-coin, σ(E); deduced final-state interaction effects. ²³O deduced ground state J, π, configuration, spectroscopic factor.

doi: 10.1016/j.physletb.2004.11.014
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2005PI12      Phys.Rev. C 71, 058801 (2005)

R.G.Pizzone, C.Spitaleri, S.Cherubini, M.La Cognata, L.Lamia, D.Miljanic, A.Musumarra, S.Romano, A.Tumino, S.Tudisco, S.Typel

Influence of the α-d motion in ⁶Li on Trojan horse applications

NUCLEAR REACTIONS ⁶Li(⁶Li, 2α), E ≈ 2-44 MeV; ³He(⁶Li, pα), E=5, 6 MeV; analyzed data. ⁶Li deduced α-d momentum distribution. ⁶Li(d, α), E(cm) ≈ 0-0.6 MeV; calculated astrophysical S-factor, role of target nucleus α-d momentum distribution.

doi: 10.1103/PhysRevC.71.058801
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2005TY01      Phys.Rev. C 71, 064301 (2005)

S.Typel

Relativistic model for nuclear matter and atomic nuclei with momentum-dependent self-energies

NUCLEAR STRUCTURE ^16,24O, ^40,48Ca, ⁵⁶Ni, ^100,132Sn, ²⁰⁸Pb; calculated binding energies, surface thickness, diffraction and charge radii. ¹⁶O, ⁴⁸Ca, ⁵⁶Ni, ¹³²Sn, ²⁰⁸Pb; calculated spin-orbit splitting. ^100,132Sn, ²⁰⁸Pb; calculated single particle energies. Relativistic mean field calculations, density-dependent meson-nucleon coupling, isoscalar meson field and nucleon field derivatives coupling, comparison with data.

doi: 10.1103/PhysRevC.71.064301
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2005TY02      Nucl.Phys. A759, 247 (2005)

S.Typel, G.Baur

Electromagnetic strength of neutron and proton single-particle halo nuclei

NUCLEAR STRUCTURE ¹¹Be, ¹⁵C, ^17,23O; calculated neutron separation energies, radius and Woods-Saxon potential depth; analyzed partial and total reduced transition B(E1) probabilities. ⁸Be, ⁹C, ¹²N; calculated proton separation energies, radius and Woods-Saxon potential depth; analyzed partial and total reduced transition B(E1) probabilities.

NUCLEAR REACTIONS ⁷Be, ⁸B, ¹¹C(p, γ), E=low; calculated zero energy astrophysical S-factors using asymptotic normalisation coefficients. Compared Woods-Saxon and square-well potential models.

doi: 10.1016/j.nuclphysa.2005.05.145
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2005TY03      Eur.Phys.J. A 25, Supplement 1, 665 (2005)

S.Typel

The Trojan-Horse method for nuclear astrophysics

NUCLEAR REACTIONS ²H(⁶Li, α), E=10-1000 keV; analyzed astrophysical S-factor. ²H(⁶Li, ³Heα), E=14, 25 MeV; analyzed σ(E).

doi: 10.1140/epjad/i2005-06-086-0
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2004BA74      Prog.Theor.Phys.(Kyoto), Suppl. 154, 333 (2004)

G.Baur, S.Typel

Theory of the Trojan-Horse Method

doi: 10.1143/PTPS.154.333
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2004GA05      Nucl.Phys. A732, 24 (2004)

T.Gaitanos, M.Di Toro, S.Typel, V.Baran, C.Fuchs, V.Greco, H.H.Wolter

On the Lorentz structure of the symmetry energy

NUCLEAR STRUCTURE Ca, Ni, Sn, Pb; calculated binding energies, radii vs mass. Density and momentum dependent symmetry energy.

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E=0.25, 1 GeV/nucleon; calculated particle yield ratios. ⁹⁶Ru(⁹⁶Ru, X), E=1.5 GeV/nucleon; calculated pion rapidity distributions. Density and momentum dependent symmetry energy.

doi: 10.1016/j.nuclphysa.2003.12.001
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2004TU02      Nucl.Phys. A734, 639 (2004)

A.Tumino, C.Spitaleri, L.Pappalardo, S.Cherubini, A.Del Zoppo, M.La Cognata, A.Musumarra, M.G.Pellegriti, R.G.Pizzone, A.Rinollo, S.Romano, S.Typel

The Trojan-horse Method applied to the ⁶Li(p, α)³He reaction down to astrophysical energies

NUCLEAR REACTIONS ²H(⁶Li, ³Heα), E=14, 25 MeV; measured particle spectra, coincidence yields, angular correlations. ⁶Li(p, α), E=low; deduced astrophysical S-factors.

doi: 10.1016/j.nuclphysa.2004.01.117
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1221.

2004TU06      Prog.Theor.Phys.(Kyoto), Suppl. 154, 341 (2004)

A.Tumino, C.Spitaleri, L.Pappalardo, S.Cherubini, A.Del Zoppo, M.La Cognata, A.Musumarra, M.G.Pellegriti, R.G.Pizzone, A.Rinollo, C.Rolfs, S.Romano, S.Typel

Indirect Study of the Astrophysically Relevant ⁶Li(p, α)³He Reaction by Means of the Trojan Horse Method

NUCLEAR REACTIONS ²H(⁶Li, ³Heα), E=14, 25 MeV; measured particle spectra, (α)(³He)-coin, angular correlations; deduced R-matrix parameters. ⁶Li(p, α), E=low; deduced astrophysical S-factor. Trojan horse method, kinematically complete measurement.

doi: 10.1143/PTPS.154.341
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2004TY01      Phys.Rev.Lett. 93, 142502 (2004)

S.Typel, G.Baur

Effective-Range Approach and Scaling Laws for Electromagnetic Strength in Neutron-Halo Nuclei

NUCLEAR STRUCTURE ¹¹Be; analyzed B(E1); deduced asymptotic normalization coefficient, spectroscopic factors. Effective-Range approach.

doi: 10.1103/PhysRevLett.93.142502
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2003DA30      Phys.Rev. C 68, 045802 (2003); Comment Phys.Rev. C 70, 039801 (2004)

B.Davids, S.Typel

Electromagnetic dissociation of ⁸B and the astrophysical S factor for ⁷Be(p, γ)⁸B

NUCLEAR REACTIONS Pb(⁸B, p⁷Be), E= 44, 81 MeV/nucleon; analyzed longitudinal momentum distributions. Pb(⁸B, X), E=83 MeV/nucleon; analyzed Coulomb dissociation σ. ⁷Be(p, γ), E(cm)=0-1 MeV; deduced astrophysical S-factors.

doi: 10.1103/PhysRevC.68.045802
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2003EN05      Phys.Rev. C 67, 064301 (2003)

J.Enders, T.Baumann, B.A.Brown, N.H.Frank, P.G.Hansen, P.R.Heckman, B.M.Sherrill, A.Stolz, M.Thoennessen, J.A.Tostevin, E.J.Tryggestad, S.Typel, M.S.Wallace

Spectroscopic factors measured in inclusive proton-knockout reactions on ⁸B and ⁹C at intermediate energies

NUCLEAR REACTIONS ¹²C(⁹C, ⁸BX), (⁹C, ⁷BeX), (⁸B, ⁷BeX), E ≈ 77 MeV/nucleon; measured proton-knockout σ. ⁸B, ⁹C deduced spectroscopic factors. Comparisons with previous results, model predictions. Astrophysical implications discussed.

doi: 10.1103/PhysRevC.67.064301
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1486.

2003HA30      Nucl.Phys. A718, 109c (2003)

F.Hammache, F.Schumann, S.Typel, K.Summerer, and the S223 Collaboration

Coulomb dissociation of ⁸B: determination of the E2 component

NUCLEAR REACTIONS ²⁰⁸Pb(⁸B, p⁷Be), E=254 MeV/nucleon; measured fragment spectra, σ(θ_rel). ⁷Be(p, γ), E(cm) ≈ 0.1-0.55 MeV; deduced astrophysical S-factors. Comparison with previous results.

doi: 10.1016/S0375-9474(03)00686-9
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2213.

2003HO22      Nucl.Phys. A719, 9c (2003)

A.Horvath, A.Galonsky, N.Carlin, F.Deak, T.Gomi, V.Guimaraes, Y.Higurashi, K.Hiroshi, K.Ieki, Y.Iwata, A.Kiss, J.Kolata, T.Rauscher, H.Schelin, J.von Schwarzenberg, Z.Seres, S.Takeuchi, S.Typel, R.Warner, J.Weiner

Measurements of astrophysical neutron capture cross sections via the inverse reaction

NUCLEAR REACTIONS C, Al, Cu, Sn, Pb(¹⁵C, nX), E=35 MeV/nucleon; C, Al, Cu, Sn, Pb(⁹Li, nX), E=40 MeV/nucleon; measured neutron spectra, (fragment)(neutron)-coin, dissociation yields. ⁸Li, ¹⁴C(n, γ), E=low; deduced astrophysical reaction rates.

doi: 10.1016/S0375-9474(03)00951-5
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2003PI13      Nucl.Phys. A718, 496c (2003)

R.G.Pizzone, C.Spitaleri, M.Lattuada, A.Musumarra, M.G.Pellegriti, S.Romano, A.Tumino, S.Cherubini, P.Figuera, D.Miljanic, C.Rolfs, S.Typel, H.H.Wolter, V.Castellani, S.Degl'Innocenti, A.Imperio

Bare astrophysical S(E)-factor for the ⁶Li(d, α)⁴He and ⁷Li(p, α)⁴He reactions at astrophysical energies

NUCLEAR REACTIONS ⁶Li(d, α), ⁷Li(p, α), E(cm) ≈ 10-1000 keV; analyzed astrophysical S-factors, electron screening potential energy.

doi: 10.1016/S0375-9474(03)00868-6
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2003PI14      Nucl.Phys. B(Proc.Supp.) S118, 455 (2003)

R.G.Pizzone, C.Spitaleri, M.Lattuada, A.Musumarra, M.G.Pellegriti, C.Rolfs, D.Miljanic, A.Di Pietro, P.Figuera, S.Romano, S.Tudisco, A.Tumino, S.Typel, H.H.Wolter, V.Castellani, S.Degl'Innocenti, A.Imperio

The ⁷Li(p, α)⁴He fusion reaction studied via the Trojan Horse Method and its astrophysical implications

NUCLEAR REACTIONS ⁷Li(d, 2α), E not given; measured not given. ⁷Li(p, α), E=low; deduced astrophysical S-factor, electron screening potential.

doi: 10.1016/S0920-5632(03)01356-2
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2003SC14      Phys.Rev.Lett. 90, 232501 (2003)

F.Schumann, F.Hammache, S.Typel, F.Uhlig, K.Summerer, L.Bottcher, D.Cortina, A.Forster, M.Gai, H.Geissel, U.Greife, N.Iwasa, P.Koczon, B.Kohlmeyer, R.Kulessa, H.Kumagai, N.Kurz, M.Menzel, T.Motobayashi, H.Oeschler, A.Ozawa, M.Ploskon, W.Prokopowicz, E.Schwab, P.Senger, F.Strieder, C.Sturm, Z.-Y.Sun, G.Surowka, A.Wagner, W.Walus

Coulomb Dissociation of ⁸B and the Low-Energy Cross Section of the ⁷Be(p, γ)⁸B Solar Fusion Reaction

NUCLEAR REACTIONS Pb(⁸B, p⁷Be), E=254 MeV/nucleon; measured particle spectra, angular correlations; deduced transition multipolarities. ⁷Be(p, γ), E=low; deduced astrophysical S-factors.

doi: 10.1103/PhysRevLett.90.232501
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2213.

2003TU02      Phys.Rev. C 67, 065803 (2003)

A.Tumino, C.Spitaleri, A.Di Pietro, P.Figuera, M.Lattuada, A.Musumarra, M.G.Pellegriti, R.G.Pizzone, S.Romano, C.Rolfs, S.Tudisco, S.Typel

Validity test of the "Trojan horse" method applied to the ⁶Li(p, α)³He reaction

NUCLEAR REACTIONS ²H(⁶Li, ³Heα), E=25 MeV; measured En, Eα, E(³He), angular distributions, correlations. ⁶Li(p, α), E(cm) < 2.4 MeV; deduced astrophysical S-factors. Trojan horse method, modified PWBA calculations, comparison with previous results.

doi: 10.1103/PhysRevC.67.065803
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1221.

2003TU06      Nucl.Phys. A718, 499c (2003)

A.Tumino, C.Spitaleri, S.Cherubini, A.Di Pietro, P.Figuera, M.Gulino, M.Lattuada, A.Musumarra, M.G.Pellegriti, R.G.Pizzone, S.Romano, C.Rolfs, S.Tudisco, S.Typel

Indirect study of the ⁶Li(p, α)³He reaction at astrophysical energies

NUCLEAR REACTIONS ²H(⁶Li, ³Heα), E=25 MeV; measured particle spectra, coincidence yield. ⁶Li(p, α), E < 2.3 MeV; deduced astrophysical S-factors.

doi: 10.1016/S0375-9474(03)00869-8
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1221.

2003TY01      Phys.Rev. C 67, 034002 (2003)

S.Typel, T.v.Chossy, H.H.Wolter

Relativistic mean field model with generalized derivative nucleon-meson couplings

doi: 10.1103/PhysRevC.67.034002
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2003TY02      Phys.Rev. C 67, 034313 (2003)

S.Typel, B.A.Brown

Skyrme Hartree-Fock calculations for the α-decay Q values of superheavy nuclei

NUCLEAR STRUCTURE Z=92-120; calculated binding energies, Qα, α-decay T_1/2 for even-even nuclides. Deformed Hartree-Fock calculations, Skyrme interaction, superheavy nuclei.

doi: 10.1103/PhysRevC.67.034313
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2003WO14      Nucl.Phys. A722, 215c (2003)

H.H.Wolter, S.Typel

Indirect methods for astrophysical nuclear reaction rates

doi: 10.1016/S0375-9474(03)01368-X
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2002BR01      Phys.Rev. C65, 014612 (2002)

B.A.Brown, S.Typel, W.A.Richter

Interaction Cross Sections for Light Neutron-Rich Nuclei

NUCLEAR REACTIONS ¹²C(α, X), (⁶He, X), (⁸He, X), (⁶Li, X), (⁷Li, X), (⁸Li, X), (⁹Li, X), (¹¹Li, X), (⁷Be, X), (⁸Be, X), (⁹Be, X), (¹⁰Be, X), (¹¹Be, X), (¹²Be, X), (¹⁴Be, X), (⁸B, X), (¹⁰B, X), (¹¹B, X), (¹²B, X), (¹³B, X), (¹⁴B, X), (¹⁵B, X), (¹⁷B, X), (¹⁹B, X), (⁹C, X), (¹⁰C, X), (¹¹C, X), (¹²C, X), (¹³C, X), (¹⁴C, X), (¹⁵C, X), (¹⁶C, X), (¹⁷C, X), (¹⁸C, X), (¹⁹C, X), (²⁰C, X), (¹²N, X), (¹³N, X), (¹⁴N, X), (¹⁵N, X), (¹⁶N, X), (¹⁷N, X), (¹⁸N, X), (¹⁹N, X), (²⁰N, X), (²¹N, X), (²²N, X), (²³N, X), (¹³O, X), (¹⁴O, X), (¹⁵O, X), (¹⁶O, X), (¹⁷O, X), (¹⁸O, X), (¹⁹O, X), (²⁰O, X), (²¹O, X), (²²O, X), (²³O, X), (²⁴O, X), (¹⁷F, X), (¹⁸F, X), (¹⁹F, X), (²⁰F, X), (²¹F, X), (²²F, X), (²³F, X), (²⁴F, X), (²⁵F, X), (²⁶F, X), (¹⁷Ne, X), (¹⁸Ne, X), (¹⁹Ne, X), (²⁰Ne, X), (²¹Ne, X), (²²Ne, X), (²³Ne, X), (²⁴Ne, X), (²⁵Ne, X), (²⁶Ne, X), (²⁷Ne, X), (²⁸Ne, X), (²⁹Ne, X), (²⁰Na, X), (²¹Na, X), (²²Na, X), (²³Na, X), (²⁴Na, X), (²⁵Na, X), (²⁶Na, X), (²⁷Na, X), (²⁸Na, X), (²⁹Na, X), (³⁰Na, X), (³¹Na, X), (³²Na, X), (²⁰Mg, X), (²¹Mg, X), (²²Mg, X), (²³Mg, X), (²⁴Mg, X), (²⁵Mg, X), (²⁶Mg, X), (²⁷Mg, X), (²⁸Mg, X), (²⁹Mg, X), (³⁰Mg, X), (³¹Mg, X), (³²Mg, X), E not given; calculated interaction σ. Glauber model, comparison with data.

doi: 10.1103/PhysRevC.65.014612
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2002CH29      Nucl.Phys. A701, 632c (2002)

S.Cherubini, C.Angulo, M.Couder, W.Galster, J.S.Graulich, P.Leleux, P.Lipnik, M.Loiselet, A.Musumarra, A.Ninane, G.Ryckewaert, J.Vervier, M.Aliotta, P.Figuera, M.Lattuada, M.G.Pellegriti, C.Spitaleri, T.Davinson, A.Di Pietro, A.M.Laird, A.N.Ostrowski, A.C.Shotter, P.J.Woods, J.Hinnefeld, S.Typel, H.Wolter

New Developments and Recent Results in Nuclear Astrophysics at Louvain-la-Neuve

doi: 10.1016/S0375-9474(01)01657-8
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2002TY02      Nucl.Phys. A709, 299 (2002)

S.Typel, O.Riedl, H.H.Wolter

Elastic Proton-Nucleus Scattering and the Optical Potential in a Relativistic Mean Field Model

NUCLEAR REACTIONS ²⁰⁸Pb(p, p), E=500, 1000 MeV; calculated σ(θ), polarization, spin rotation. ²⁰⁸Pb, ⁹⁰Zr, ⁴⁰Ca, ¹⁶O(p, p), E=200-1000 MeV; calculated σ(θ). Relativistic mean field, momentum dependence of self energies, optical potential.

doi: 10.1016/S0375-9474(02)01031-X
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2001BA54      Prog.Part.Nucl.Phys. 46, 99 (2001)

G.Baur, K.Hencken, D.Trautmann, S.Typel, H.H.Wolter

Electromagnetic Dissociation as a Tool for Nuclear Structure and Astrophysics

doi: 10.1016/S0146-6410(01)00113-2
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2001CH44      Nucl.Phys. A688, 465c (2001)

S.Cherubini, W.Galster, J.S.Graulich, P.Leleux, M.Loiselet, A.Musumarra, A.Ninane, G.Ryckewaert, J.Vervier, M.Aliotta, P.Figuera, M.Lattuada, M.G.Pellegriti, C.Spitaleri, T.Davinson, A.Di Pietro, A.M.Laird, A.N.Ostrowski, A.C.Shotter, P.J.Woods, J.Hinnefeld, S.Typel, H.Wolter

The ¹⁵O(α, γ)¹⁹Ne^* Reaction using a ¹⁸Ne Radioactive Beam

NUCLEAR REACTIONS ²H(¹⁸Ne, p), E=45-54 MeV; measured Ep, Eα, σ(θ), decay Q-value spectrum. Applicability of results to ¹⁵O(α, γ) reaction discussed.

doi: 10.1016/S0375-9474(01)00757-6
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2001LA35      Astrophys.J. 562, 1076 (2001)

M.Lattuada, R.G.Pizzone, S.Typel, P.Figuera, D.Miljanic, A.Musumarra, M.G.Pellegriti, C.Rolfs, C.Spitaleri, H.H.Wolter

The bare astrophysical S(E) factor of the ⁷Li(p, α)α reaction

NUCLEAR REACTIONS ²H(⁷Li, 2α), E=19.0, 19.5, 20.0 MeV; measured Eα, αα-coin, angular correlations. ⁷Li(p, α), E ≈ 10-400 keV; deduced astrophysical S-factor.

doi: 10.1086/323868
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2211.

2001MU30      Phys.Rev. C64, 068801 (2001)

A.Musumarra, R.G.Pizzone, S.Blagus, M.Bogovac, P.Figuera, M.Lattuada, M.Milin, D.Miljanic, M.G.Pellegriti, D.Rendic, C.Rolfs, N.Soic, C.Spitaleri, S.Typel, H.H.Wolter, M.Zadro

Improved Information on the ²H(⁶Li, α)⁴He Reaction Extracted via the ' Trojan Horse ' Method

NUCLEAR REACTIONS ⁶Li(⁶Li, 2α), E(cm)=10-800 keV; measured σ; deduced astrophysical S-factor, electron screening potential energy.

doi: 10.1103/PhysRevC.64.068801
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2001PE10      Nucl.Phys. A688, 543c (2001)

M.G.Pellegriti, M.Aliotta, P.Figuera, M.Lattuada, D.Miljanic, A.Musumarra, R.G.Pizzone, C.Rolfs, S.Romano, C.Spitaleri, S.Tudisco, A.Tumino, S.Typel, H.H.Wolter

The α - ¹²C Radiative Capture Process and the Trojan Horse Method

NUCLEAR REACTIONS ⁶Li(¹²C, dα), E=15, 18 MeV; measured σ(θ), momentum distribution. Effects on ¹²C(α, x) cross sections discussed.

doi: 10.1016/S0375-9474(01)00782-5
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2001SP04      Phys.Rev. C63, 055801 (2001)

C.Spitaleri, S.Typel, R.G.Pizzone, M.Aliotta, S.Blagus, M.Bogovac, S.Cherubini, P.Figuera, M.Lattuada, M.Milin, D.Miljanic, A.Musumarra, M.G.Pellegriti, D.Rendic, C.Rolfs, S.Romano, N.Soic, A.Tumino, H.H.Wolter, M.Zadro

' Trojan Horse ' Method Applied to ²H(⁶Li, α)⁴He at Astrophysical Energies

NUCLEAR REACTIONS ⁶Li(⁶Li, 2α), E=6 MeV; measured Eα, Iα(θ), αα-coin. ²H(⁶Li, α), E(cm)=13-750 keV; deduced astrophysical S-factor. Kinematically complete measurement, Trojan Horse method.

doi: 10.1103/PhysRevC.63.055801
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO0899.

2001TO07      Phys.Rev. C63, 035801 (2001)

Y.Tokimoto, H.Utsunomiya, T.Yamagata, M.Ohta, Y.-W.Lui, R.P.Schmitt, S.Typel, Y.Aoki, K.Ieki, K.Katori

Coulomb Breakup of ⁷Li for Nuclear Astrophysics

NUCLEAR REACTIONS ²⁷Al, ⁵⁸Ni, ⁶⁴Zn, ⁹⁰Zr, ¹²⁰Sn, ¹⁴⁴Sm, ¹⁶⁹Tm, ¹⁹⁷Au, ²⁰⁸Pb(⁷Li, tα), E=42 MeV; measured triton, α spectra, σ(θ) following resonant and nonresonant Coulomb breakup; deduced postacceleration effect. ³H(α, γ), E(cm) ≈ 0.05-0.8 MeV; deduced astrophysical S factors.

doi: 10.1103/PhysRevC.63.035801
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE1748.

2001TY01      Phys.Rev. C64, 024601 (2001)

S.Typel, G.Baur

Higher Order Effects in Electromagnetic Dissociation of Neutron Halo Nuclei

NUCLEAR REACTIONS ²⁰⁸Pb(¹⁹C, n¹⁸C), E=67 MeV/nucleon; ²⁰⁸Pb(¹¹Be, n¹⁰Be), E=72 MeV/nucleon; calculated Coulomb dissociation σ(E, θ); deduced role of higher-order effects. Zero-range model for neutron-core interaction, comparisons with data.

doi: 10.1103/PhysRevC.64.024601
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2001TY02      Phys.Rev. C64, 024605 (2001)

S.Typel, R.Shyam

Dynamical Description of the Breakup of One-Neutron Halo Nuclei ¹¹Be and ¹⁹C

NUCLEAR REACTIONS ²⁰⁸Pb(¹⁹C, n¹⁸C), E=67 MeV/nucleon; ²⁰⁸Pb(¹¹Be, n¹⁰Be), E=72 MeV/nucleon; calculated σ, fragment-core relative energy spectra; deduced dynamical effects. Comparisons with data.

doi: 10.1103/PhysRevC.64.024605
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2001TY03      Phys.Rev. C64, 027302 (2001)

S.Typel, B.A.Brown

Neutron Radii and the Neutron Equation of State in Relativistic Models

NUCLEAR STRUCTURE ¹³²Sn, ¹³⁸Ba, ²⁰⁸Pb; calculated neutron radii, correlation with neutron equation of state. Differences between relativistic and nonrelativistic models discussed.

doi: 10.1103/PhysRevC.64.027302
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2000SP05      Eur.Phys.J. A 7, 181 (2000)

C.Spitaleri, M.Aliotta, P.Figuera, M.Lattuada, R.G.Pizzone, S.Romano, A.Tumino, C.Rolfs, L.Gialanella, F.Strieder, S.Cherubini, A.Musumarra, D.Miljanic, S.Typel, H.H.Wolter

The αl-¹²C Scattering Studied via the Trojan-Horse Method

NUCLEAR REACTIONS ⁶Li(¹²C, α¹²C), E=18 MeV; measured particle energy, position, (particle)(particle)-coin, σ(θ); deduced reaction mechanism features. ¹²C(α, α), E(cm)=2.5-3.5 MeV; calculated σ(θ). Plane Wave Born Approximation calculations. Other measurements compared. Astrophysical significance discussed.

doi: 10.1007/s100500050379
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2000TY03      Few-Body Systems 29, 75 (2000)

S.Typel, H.H.Wolter

Extraction of Astrophysical Cross Sections in the Trojan-Horse Method

doi: 10.1007/s006010070010
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1999TY01      Z.Naturforsch. 54a, 63 (1999)

S.Typel, H.H.Wolter

Dynamical Description of Coulomb Dissociation

NUCLEAR REACTIONS ¹⁹⁷Au(⁷Li, tα), E=42 MeV; calculated σ(θ) vs relative fragment energy for Coulomb breakup; deduced higher order effects. Time dependent Schrodinger equation.

1999TY02      Nucl.Phys. A656, 331 (1999)

S.Typel, H.H.Wolter

Relativistic Mean Field Calculations with Density-Dependent Meson-Nucleon Coupling

NUCLEAR STRUCTURE ¹⁶O, ^40,48Ca, ⁵⁶Ni, ¹³²Sn, ²⁰⁸Pb; calculated single-particle energies. A=34-214; calculated semi-magic nuclei binding energies, separation energies, radii, density distributions. Relativistic mean field calculations, density-dependent meson-nucleon coupling.

doi: 10.1016/S0375-9474(99)00310-3
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