NSR Query Results
Output year order : Descending NSR database version of May 6, 2024. Search: Author = J.B.Lanen Found 14 matches. 1993LA16 Nucl.Phys. A560, 811 (1993) J.B.J.M.Lanen, H.P.Blok, H.J.Bulten, J.A.Caballero, E.Moya de Guerra, M.N.Harakeh, G.J.Kramer, L.Lapikas, M.van der Schaar, P.K.A.de Witt Huberts, A.Zondervan The (e, e'p) Reaction on 142Nd and 146Nd: A search for deformation effects NUCLEAR REACTIONS 142,146Nd(e, e'p), E=261, 450 MeV; measured spectra. 141,145Pr levels deduced momentum distributions, deformation effects, C2S. CDWIA calculations, Nilsson plus BCS model calculations.
doi: 10.1016/0375-9474(93)90172-T
1991VA03 Phys.Rev.Lett. 66, 409 (1991) J.F.J.van den Brand, H.P.Blok, H.J.Bulten, R.Ent, E.Jans, G.J.Kramer, J.M.Laget, J.B.J.M.Lanen, L.Lapikas, J.S.Roebers, R.Schiavilla, G.van der Steenhoven, P.K.A.de Witt Huberts Study of the Mechanism of the Reaction 4He(e, e'p)3H NUCLEAR REACTIONS 4He(e, e'p), E=425.6 MeV; analyzed data; deduced reaction mechanism.
doi: 10.1103/PhysRevLett.66.409
1991VA06 Phys.Rev.Lett. 66, 2855 (1991) M.van der Schaar, H.Arenhovel, Th.S.Bauer, H.P.Blok, H.J.Bulten, M.Daman, R.Ent, E.Hummel, E.Jans, G.J.Kramer, J.B.J.M.Lanen, L.Lapikas, J.H.Mitchell, G.van der Steenhoven, J.A.Tjon, P.K.A.de Witt Huberts, A.Zondervan Longitudinal-Transverse Separation of the Deuterium (e, e'p) Response Functions NUCLEAR REACTIONS 2H(e, e'p), E=296.7-555.9 MeV; measured longitudinal, transverse response functions. Model comparison.
doi: 10.1103/PhysRevLett.66.2855
1990DE39 Nucl.Instrum.Methods Phys.Res. A292, 629 (1990) L.De Vries, J.B.J.M.Lanen, H.P.Blok, H.De Vries The Optical Properties of the QDQ Magnetic Spectrometer at NIKHEF NUCLEAR REACTIONS 1H(e, e'p), E=447 MeV; measured missing energy spectra, absolute missing momentum, e'p(t). QDQ spectrometer.
doi: 10.1016/0168-9002(90)90181-5
1990LA06 Phys.Rev.Lett. 64, 2250 (1990) J.B.J.M.Lanen, H.P.Blok, E.Jans, L.Lapikas, G.van der Steenhoven, P.K.A.de Witt Huberts Two-Body Mechanisms in the 6Li(e, e'p) Reaction NUCLEAR REACTIONS 6Li(e, e'p), E not given; analyzed response function data; deduced reaction mechanism.
doi: 10.1103/PhysRevLett.64.2250
1990LO14 Nucl.Phys. A516, 325 (1990) R.G.Lovas, A.T.Kruppa, J.B.J.M.Lanen Cluster-Model Interpretation of the 6Li(e, e'p) Reaction NUCLEAR REACTIONS 6Li(e, e'p), E not given; calculated missing energy, momentum distributions. Cluster model.
doi: 10.1016/0375-9474(90)90312-A
1989EN01 Phys.Rev.Lett. 62, 24 (1989) R.Ent, B.L.Berman, H.P.Blok, J.F.J.van den Brand, W.J.Briscoe, E.Jans, G.J.Kramer, J.B.J.M.Lanen, L.Lapikas, B.E.Norum, E.N.M.Quint, A.Saha, G.van der Steenhoven, P.K.A.de Witt Huberts Deuteron Formation in the Reaction 12C(e, e'd)10B(T = 1) NUCLEAR REACTIONS 12C(e, e'd), E=466 MeV; measured σ(θ(e'), E(e'), θd) vs excitation. 10B deduced T=0, T=1 relative level excitation, mechanism.
doi: 10.1103/PhysRevLett.62.24
1989KR05 Phys.Lett. 227B, 199 (1989) G.J.Kramer, H.P.Blok, J.F.J.van den Brand, H.J.Bulten, R.Ent, E.Jans, J.B.J.M.Lanen, L.Lapikas, H.Nann, E.N.M.Quint, G.van der Steenhoven, P.K.A.de Witt Huberts, G.J.Wagner Proton Ground-State Correlations in 40Ca Studied with Reaction 40Ca(e, e'p)39K NUCLEAR REACTIONS 40Ca(e, e'p), E not given; measured spectral function. 39K levels deduced bound state parameters, spectroscopic factors.
doi: 10.1016/S0370-2693(89)80022-X
1989LA13 Phys.Rev.Lett. 62, 2925 (1989) J.B.J.M.Lanen, A.M.van den Berg, H.P.Blok, J.F.J.van den Brand, C.T.Christou, R.Ent, A.G.M.van Hees, E.Jans, G.J.Kramer, L.Lapikas, D.R.Lehman, W.C.Parke, E.N.M.Quint, G.van der Steenhoven, P.K.A.de Witt Huberts Electrodisintegration of 6Li Studied with the Reaction 6Li(e, e'p) NUCLEAR REACTIONS 6Li(e, e'p), E not given; measured missing energy spectra, momentum distributions; deduced spectroscopic strength. Three-body model.
doi: 10.1103/PhysRevLett.62.2925
1989LA22 Phys.Rev.Lett. 63, 2793 (1989) J.B.J.M.Lanen, R.G.Lovas, A.T.Kruppa, H.P.Blok, J.F.J.van den Brand, R.Ent, E.Jans, G.J.Kramer, L.Lapikas, E.N.M.Quint, G.van der Steenhoven, P.C.Tiemeijer, P.K.A.de Witt Huberts (e, e'p) Study of Triton + Deuteron + Proton Clustering in 6Li NUCLEAR REACTIONS 6Li(e, e'p), E not given; measured momentum distribution, spectral function missing energy dependences. 6Li deduced clustering effects.
doi: 10.1103/PhysRevLett.63.2793
1988VA12 Phys.Rev.Lett. 60, 2006 (1988) J.F.J.van den Brand, H.P.Blok, R.Ent, E.Jans, G.J.Kramer, J.B.J.M.Lanen, L.Lapikas, E.N.M.Quint, G.van der Steenhoven, P.K.A.de Witt Huberts Electrodisintegration of 4He Studied with the Reaction 4He(e, e'p)3H NUCLEAR REACTIONS 4He(e, e'p), E=26 MeV; measured e'p-coin; deduced final state momentum distribution.
doi: 10.1103/PhysRevLett.60.2006
1987QU01 Phys.Rev.Lett. 58, 1088 (1987) E.N.M.Quint, B.M.Barnett, A.M.van den Berg, J.F.J.van den Brand, H.Clement, R.Ent, B.Frois, D.Goutte, P.Grabmayr, J.W.A.den Herder, E.Jans, G.J.Kramer, J.B.J.M.Lanen, L.Lapikas, H.Nann, G.van der Steenhoven, G.J.Wagner, P.K.A.de Witt Huberts Evidence for Partial Occupancy of the 3s1/2 Proton Orbit in 208Pb NUCLEAR REACTIONS 205Tl, 206Pb(e, e'p), E=410 MeV; measured spectral functions vs excitation energy. 205Tl, 206Pb deduced 3s1/2 strengths, spectroscopic factors, proton orbit occupation probabilities. 208Pb deduced 3s1/2 occupation probability. Other data input.
doi: 10.1103/PhysRevLett.58.1088
1987VA08 Phys.Rev.Lett. 58, 1727 (1987) G.van der Steenhoven, A.M.van den Berg, H.P.Blok, S.Boffi, J.F.J.van den Brand, R.Ent, T.de Forest, Jr., C.Giusti, J.W.A.den Herder, E.Jans, G.J.Kramer, J.B.J.M.Lanen, L.Lapikas, J.Mougey, P.J.Mulders, F.D.Pacati, E.N.M.Quint, P.K.A.de Witt Huberts Nuclear-Density Dependence of the Electron-Proton Coupling NUCLEAR REACTIONS 6Li(e, e'p), E=322, 479.9 MeV; measured reduced σ ratios; deduced electron-proton coupling nuclear density dependence. Enriched target. DWIA analyses.
doi: 10.1103/PhysRevLett.58.1727
1986DE14 Nucl.Phys. A454, 48 (1986) H.P.L.de Esch, J.B.J.M.Lanen, C.van der Leun A High-Resolution 62Ni(p, γ)63Cu Study NUCLEAR REACTIONS 62Ni(p, γ), E=1.15-1.7 MeV; measured Eγ, Iγ; deduced Q. 63Cu deduced resonances, γ-branching. Enriched targets.
doi: 10.1016/0375-9474(86)90147-8
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