NSR Query Results
Output year order : Descending NSR database version of April 25, 2024. Search: Author = S.J.Bennett Found 23 matches. 1998MU16 Phys.Rev. C58, 1569 (1998) J.T.Murgatroyd, J.S.Pople, N.M.Clarke, B.R.Fulton, M.J.Leddy, W.N.Catford, S.P.Fox, G.J.Gyapong, C.D.Jones, D.L.Watson, W.D.M.Rae, Y.Chan, R.G.Stokstad, S.J.Bennett 16O + 8Be Breakup of 24Mg Via the 12C(20Ne, 16O8Be)8Be and 12C(24Mg, 16O8Be)12C Reactions NUCLEAR REACTIONS 12C(20Ne, 8Be16O), E=160 MeV; 12C(24Mg, 8Be16O), E=170 MeV; measured (Be)(O)-coin, angular correlations, excitation energy spectra. 24Mg deduced levels E, J. Comparison with 12C + 12C breakup channel.
doi: 10.1103/PhysRevC.58.1569
1996MU03 Phys.Rev. C53, 1963 (1996) A.St.J.Murphy, R.A.Le Marechal, S.J.Bennett, N.M.Clarke, N.Curtis, M.Freer, B.R.Fulton, S.J.Hall, M.J.Leddy, J.T.Murgatroyd, J.S.Pople, G.Tungate, R.P.Ward, W.D.M.Rae, P.M.Simmons, W.N.Catford, G.J.Gyapong, S.M.Singer, S.P.G.Chappell, S.P.Fox, C.D.Jones, P.Lee, D.L.Watson Search for 16O + 16O + 16O Structure in 48Cr NUCLEAR REACTIONS 12C, 24Mg(24Mg, 216O), E=150, 170 MeV; measured Eγ, Iγ, σ(θ1, θ2).
doi: 10.1103/PhysRevC.53.1963
1995JA06 Phys.Rev. C51, 2606 (1995) N.S.Jarvis, D.L.Watson, G.J.Gyapong, C.D.Jones, S.J.Bennett, M.Freer, B.R.Fulton, O.Karban, J.T.Murgatroyd, G.Tungate, W.D.M.Rae, A.E.Smith Breakup Studies with 23Na NUCLEAR REACTIONS 12C(23Na, 11B12C), E=176 MeV; 12C(23Na, 212C), E=156 MeV; measured fragment E(total), spectra. 23Na, 24Mg deduced breakup state energies, width upper limits, fragmentation characteristics.
doi: 10.1103/PhysRevC.51.2606
1995LE22 Nucl.Phys. A589, 363 (1995) M.J.Leddy, S.J.Bennett, N.M.Clarke, M.Freer, B.R.Fulton, J.T.Murgatroyd, G.J.Gyapong, C.D.Jones, D.L.Watson, W.D.M.Rae, A.E.Smith, W.N.Catford Comparison of Resonances Observed in the 12C(24Mg, 12C12C)12C and 12C(20Ne, 12C12C)8Be Reactions NUCLEAR REACTIONS 12C(24Mg, 212C), E=170 MeV; measured (fragment)(fragment)-coin. 24Mg deduced excitation energies, J.
doi: 10.1016/0375-9474(95)00053-4
1995MU03 Phys.Rev. C51, 2230 (1995) J.T.Murgatroyd, S.J.Bennett, B.R.Fulton, J.S.Pople, N.S.Jarvis, D.L.Watson, W.D.M.Rae, Y.Chan, D.DiGregorio, J.Scarpaci, J.Suro Perez, R.G.Stokstad Evidence for 16O + 12C Cluster Structure in 28Si NUCLEAR REACTIONS 12C(20Ne, 12C16O), E=160 MeV; measured (12C)(16O)-coin total energy spectra. 28Si levels deduced 12C + 16O cluster structure, shape features.
doi: 10.1103/PhysRevC.51.2230
1995MU04 Nucl.Phys. A587, 367 (1995) J.T.Murgatroyd, S.J.Bennett, N.M.Clarke, B.R.Fulton, G.J.Gyapong, C.D.Jones, D.L.Watson, T.M.Cormier, H.Dejbakhsh, A.Szanto de Toledo, N.Carlin Termination of the 12C-12C Cluster States Revealed in the 12C)(20Ne, 12C12C)8Be Breakup Reaction NUCLEAR REACTIONS 12C(20Ne, 212C), E=300 MeV; measued (12C)(12C)-coin. 24Mg deduced energies of breakup states.
doi: 10.1016/0375-9474(95)00003-J
1995TI06 Phys.Rev. C52, 1315 (1995) M.A.Tiede, K.W.Kemper, N.R.Fletcher, D.Robson, D.D.Caussyn, S.J.Bennett, J.D.Brown, W.N.Catford, C.D.Jones, D.L.Watson, W.D.M.Rae Measurement of Low-Lying States in 9B NUCLEAR REACTIONS 6Li(6Li, t), E=56 MeV; measured 8Be+p relative energy spectra. 9B deduced levels, parameters. Line shape analysis.
doi: 10.1103/PhysRevC.52.1315
1994FU01 J.Phys.(London) G20, 151 (1994) B.R.Fulton, S.J.Bennett, J.T.Murgatroyd, N.S.Jarvis, D.L.Watson, W.D.M.Rae, Y.Chan, D.DiGregorio, J.Scarpaci, J.Suro Perez, R.G.Stokstad Resonances in 24Mg Revealed in the 12C(20Ne, 12C12C)8Be Reaction NUCLEAR REACTIONS 12C(20Ne, 212C), E=160 MeV; measured coincident 12C nuclei total energy spectra. 24Mg deduced excited state population, breakup mechanism.
doi: 10.1088/0954-3899/20/1/015
1994GY01 Nucl.Phys. A579, 207 (1994) G.J.Gyapong, D.L.Watson, W.N.Catford, N.M.Clarke, S.J.Bennett, M.Freer, B.R.Fulton, C.D.Jones, M.Leddy, J.T.Murgatroyd, W.D.M.Rae, P.Simmons Reaction Mechanism for the Symmetric Breakup of 24Mg following an Interaction with 12C NUCLEAR REACTIONS 12C(24Mg, 212C), E(cm)=43.3-60 MeV; measured symmetric breakup yield; deduced reaction mechanism. 24Mg deduced cluster states characteristics.
doi: 10.1016/0375-9474(94)90802-8
1994KE08 Nucl.Phys. A571, 326 (1994) N.Keeley, S.J.Bennett, N.M.Clarke, B.R.Fulton, G.Tungate, P.V.Drumm, M.A.Nagarajan, J.S.Lilley Optical Model Analyses of 6,7Li + 208Pb Elastic Scattering Near the Coulomb Barrier NUCLEAR REACTIONS 208Pb(6Li, 6Li), E=25-39 MeV; 208Pb(7Li, 7Li), E=25-60 MeV; measured σ(θ); deduced optical model parameters. Double folding model.
doi: 10.1016/0375-9474(94)90064-7
1994PO19 Z.Phys. A349, 349 (1994) J.S.Pople, N.M.Clarke, B.R.Fulton, M.J.Leddy, J.T.Murgatroyd, Y.Chan, R.G.Stokstad, W.D.M.Rae, W.N.Catford, S.P.Fox, G.J.Gyapong, D.L.Watson, S.J.Bennett, and the Charissa Collaboration The Breakup of 24Mg into 16O and 8Be NUCLEAR REACTIONS 12C(24Mg, 8Be16O), E=170 MeV; 12C(20Ne, 8Be16O), E=160 MeV; measured breakup spectra; deduced reaction mechanism. 24Mg deduced breakup level configuration, shape features.
1993BE56 Nucl.Instrum.Methods Phys.Res. A332, 476 (1993) S.J.Bennett, N.M.Clarke, M.Freer, B.R.Fulton, S.J.Hall, O.Karban, J.T.Murgatroyd, G.Tungate, G.J.Gyapong, N.S.Jarvis, D.L.Watson, W.D.M.Rae, A.E.Smith, J.S.Lilley, P.J.Woods, R.D.Page, and the Charissa Collaboration Application of Inverse Kinematics to 1H + 23Na → 12C + 12C using a Thick Target NUCLEAR REACTIONS 1H(23Na, 12C), E=180 MeV; measured 12C-spectra, σ(θ) vs 24Mg excitation. Kinematically complete experiment.
doi: 10.1016/0168-9002(93)90303-Y
1991BE27 Nucl.Phys. A534, 445 (1991) S.J.Bennett, M.Freer, B.R.Fulton, J.T.Murgatroyd, P.J.Woods, S.C.Allcock, W.D.M.Rae, A.E.Smith, J.S.Lilley, R.R.Betts Symmetric and Near-Symmetric Fission of 24Mg, 28Si and 32S NUCLEAR REACTIONS 12C(28Si, F), (28Si, X), (32S, F), (32S, X), E=200 MeV; 12C(24Mg, F), (24Mg, X), E=180 MeV; measured fission, reaction (fragment)(fragment)-coin; deduced reaction mechanism. 24Mg, 28Si, 32S deduced fission characteristics.
doi: 10.1016/0375-9474(91)90511-4
1991FU03 J.Phys.(London) G17, 555 (1991) B.R.Fulton, S.J.Bennett, M.Freer, J.T.Murgatroyd, S.C.Allcock, W.D.M.Rae, A.E.Smith, R.R.Betts, B.B.Back, S.Sanders, F.Videbaek Search for Large Cluster Breakup of 40Ca NUCLEAR REACTIONS 12C(40Ca, 12CX), E=300 MeV; measured total energy spectra following projectile breakup. 12C(24Mg, 212C), E not given; analyzed total energy spectra following projectile breakup; deduced no large cluster 40Ca breakup evidence.
doi: 10.1088/0954-3899/17/4/014
1991FU09 Phys.Lett. 267B, 325 (1991) B.R.Fulton, S.J.Bennett, M.Freer, J.T.Murgatroyd, G.J.Gyapong, N.S.Jarvis, C.D.Jones, D.L.Watson, J.D.Brown, W.D.M.Rae, A.E.Smith, J.S.Lilley Spin Measurement for Symmetric Fission States of 24Mg. A New Angle on the 12C + 12C Interaction NUCLEAR REACTIONS 12C(24Mg, 212C), E=170 MeV; measured (12C)(12C)(θ). 24Mg deduced symmetric fission decay states J, deformation features. Cranked cluster model, Nilsson-Strutinsky calculations.
doi: 10.1016/0370-2693(91)90940-R
1991GY01 Phys.Rev. C44, 520 (1991) G.J.Gyapong, N.S.Jarvis, D.L.Watson, S.J.Bennett, M.Freer, B.R.Fulton, J.T.Murgatroyd, R.Hunt, W.D.M.Rae, A.E.Smith Near-Symmetric Breakup of 25Mg NUCLEAR REACTIONS 12C(25Mg, X), E=180 MeV; measured (fragment)(fragment)-coin, X=12C, 13C following projectile breakup. 24,25Mg deduced symmetric fissioning states energy.
doi: 10.1103/PhysRevC.44.520
1991PA05 Z.Phys. A338, 295 (1991) R.D.Page, P.J.Woods, S.J.Bennett, M.Freer, B.R.Fulton, R.A.Cunningham, J.Groves, M.A.C.Hotchkis, A.N.James Evidence for the Alpha Decay of 108I NUCLEAR REACTIONS 54Fe(58Ni, X), E=260 MeV; 50Cr(58Ni, X), E=230 MeV; measured decay particle energy spectra. 108I deduced possible α-decay evidence, no proton decay branch. 105Te deduced no α-decay. Recoil implantation detection system.
doi: 10.1007/BF01288193
1991SE01 Z.Phys. A338, 245 (1991) P.J.Sellin, P.J.Woods, R.D.Page, S.J.Bennett, R.A.Cunningham, M.Freer, B.R.Fulton, M.A.C.Hotchkis, A.N.James The Limit of Stability of Proton-Rich Thallium Isotopes: A search for the decay of 177Tl NUCLEAR REACTIONS 106Cd(74Se, X), E=340 MeV; measured evaporation residues velocity, mass, α-spectra; deduced no evidence for 177Tl. RADIOACTIVITY 177,178Hg, 177Au(α) [from 106Cd(74Se, X), E=340 MeV]; measured Eα, Iα, T1/2; deduced no evidence for 177Tl. 165,166Os measured T1/2.
doi: 10.1007/BF01284803
1990AL14 Nucl.Instrum.Methods Phys.Res. A289, 213 (1990) S.C.Allcock, P.R.Keeling, W.D.M.Rae, A.E.Smith, S.J.Bennett, M.Freer, B.R.Fulton, R.D.Page, P.J.Woods A Compact High-Efficiency 8Be Detector NUCLEAR REACTIONS 12C(24Mg, X), E not given; analyzed 8Be spectra following projectile breakup. Compact high efficiency 8Be detector.
doi: 10.1016/0168-9002(90)90261-4
1989FU10 Phys.Lett. 232B, 56 (1989) B.R.Fulton, S.J.Bennett, M.Freer, R.D.Page, P.J.Woods, S.C.Allcock, A.E.Smith, W.D.M.Rae, J.S.Lilley 16O + 8Be Breakup of 24Mg NUCLEAR REACTIONS C(24Mg, X), E=180 MeV; measured αα-coin; deduced projectile 16O+8Be breakup.
doi: 10.1016/0370-2693(89)90558-3
1989OG01 Phys.Rev. C39, 139 (1989) C.A.Ogilvie, J.M.Nelson, D.Barker, S.J.Bennett, B.R.Fulton, S.D.Hoath, M.C.Mannion, P.J.Woods, L.Zybert, R.Zybert (16O, 14C) Reaction on Some Even N = 28 Isotones NUCLEAR REACTIONS 52Cr, 48Ca(16O, 14C), E=160 MeV; 50Ti, 54Fe(16O, 14C), E=150 MeV; measured σ(θ), σ(E(14C)); deduced model parameters, reaction mechanism.
doi: 10.1103/PhysRevC.39.139
1989WO02 Nucl.Instrum.Methods Phys.Res. A276, 195 (1989) P.J.Woods, S.J.Bennett, M.Freer, B.R.Fulton, R.D.Page, K.A.Connell, R.A.Cunningham, J.Groves, J.Simpson, A.N.James, M.A.C.Hotchkis, W.D.M.Rae A Detection System for the Study of Alpha and Proton Radioactivity on the Daresbury Recoil Mass Separator NUCLEAR REACTIONS 110Cd(58Ni, X), E=260 MeV; measured E(α), I(α) following evaporation residue decay. 153Tm, 161,162W, 158,157Hf, 154Yb deduced α-branching ratio. Position sensitive silcon surface barrier detector.
doi: 10.1016/0168-9002(89)90632-3
1986FU07 Phys.Lett. 181B, 233 (1986) B.R.Fulton, S.J.Bennett, C.A.Ogilvie, J.S.Lilley, D.W.Banes, W.D.M.Rae, S.C.Allcock, R.R.Betts, A.E.Smith Symmetric Fission of 24Mg following Inelastic Scattering NUCLEAR REACTIONS 12C(24Mg, 212C), (24Mg, 16O8Be), 4He(24Mg, 16O), E=180 MeV; measured total energy spectrum. 24Mg deduced symmetric fission. ΔE-E telescopes, coincidence method.
doi: 10.1016/0370-2693(86)90038-9
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