NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = W.Mann Found 20 matches. 2023CA04 Nature(London) 614, 48 (2023) T.Cai, M.L.Moore, A.Olivier, S.Akhter, Z.Ahmad Dar, V.Ansari, M.V.Ascencio, A.Bashyal, A.Bercellie, M.Betancourt, A.Bodek, J.L.Bonilla, A.Bravar, H.Budd, G.Caceres, M.F.Carneiro, G.A.Diaz, H.da Motta, J.Felix, L.Fields, A.Filkins, R.Fine, A.M.Gago, H.Gallagher, S.M.Gilligan, R.Gran, E.Granados, D.A.Harris, S.Henry, D.Jena, S.Jena, J.Kleykamp, A.Klustova, M.Kordosky, D.Last, T.Le, A.Lozano, X.-G.Lu, E.Maher, S.Manly, W.A.Mann, C.Mauger, K.S.McFarland, B.Messerly, J.Miller, O.Moreno, J.G.Morfin, D.Naples, J.K.Nelson, C.Nguyen, V.Paolone, G.N.Perdue, K.-J.Plows, M.A.Ramirez, R.D.Ransome, H.Ray, D.Ruterbories, H.Schellman, C.J.Solano Salinas, H.Su, M.Sultana, V.S.Syrotenko, E.Valencia, N.H.Vaughan, A.V.Waldron, M.O.Wascko, C.Wret, B.Yaeggy, L.Zazueta Measurement of the axial vector form factor from antineutrino-proton scattering NUCLEAR REACTIONS 1H(ν-bar, μ+), E ∼ 1 GeV; measured reaction products; deduced σ, nucleon axial radius, axial vector form factor. The first high-statistics measurement, MINERvA detector.
doi: 10.1038/s41586-022-05478-3
2002CH48 Phys.Rev. D66, 032004 (2002) J.Chung, W.W.M.Allison, G.J.Alner, D.S.Ayres, W.L.Barrett, P.M.Border, J.H.Cobb, H.Courant, D.M.Demuth, T.H.Fields, H.R.Gallagher, M.C.Goodman, R.Gran, T.Joffe-Minor, T.Kafka, S.M.S.Kasahara, P.J.Litchfield, W .Mann, M.L.Marshak, R.H.Milburn, W.H.Miller, L.Mualem, A.Napier, W.P.Oliver, G.F.Pearce, E.A.Peterson, D.A.Petyt, K.Ruddick, M.Sanchez, J.Schneps, A.Sousa, B.Speakman, J.L.Thron, S.P.Wakely, N.West Search for neutron-antineutron oscillations using multiprong events in Soudan 2 RADIOACTIVITY 1n; measured lower limit for neutron-antineutron oscillation time in iron nuclei.
doi: 10.1103/PhysRevD.66.032004
2000WA06 Phys.Rev. D61, 072004 (2000) D.Wall, W.W.M.Allison, G.J.Alner, D.S.Ayres, W.L.Barrett, C.Bode, P.M.Border, C.B.Brooks, J.H.Cobb, R.Cotton, H.Courant, D.M.Demuth, T.H.Fields, H.R.Gallagher, C.Garcia-Garcia, M.C.Goodman, R.Gran, T.Joffe-Minor, T.Kafka, S.M.S.Kasahara, W.Leeson, P.J.Litchfield, N.P.Longley, W.A.Mann, M.L.Marshak, R.H.Milburn, W.H.Miller, L.Mualem, A.Napier, W.P.Oliver, G.F.Pearce, E.A.Peterson, D.A.Petyt, L.E.Price, K.Ruddick, M.Sanchez, J.Schneps, M.H.Schub, R.Seidlein, A.Stassinakis, H.Tom, J.L.Thron, G.Villaume, S.P.Wakely, N.West Search for Nucleon Decay into Lepton + K0 Final States using Soudan 2 RADIOACTIVITY 1n, 1H; measured lepton + K0 associated decay T1/2 lower limits. Soudan 2 iron tracking calorimeter.
doi: 10.1103/PhysRevD.61.072004
2000WA33 Phys.Rev. D62, 092003 (2000) D.Wall, W.W.M.Allison, G.J.Alner, D.S.Ayres, W.L.Barrett, C.Bode, P.M.Border, J.H.Cobb, R.Cotton, H.Courant, J.Chung, D.M.Demuth, T.H.Fields, H.R.Gallagher, M.C.Goodman, R.Gran, T.Joffe-Minor, T.Kafka, S.M.S.Kasahara, W.Leeson, P.J.Litchfield, W.A.Mann, M.L.Marshak, R.H.Milburn, W.H.Miller, L.Mualem, A.Napier, W.P.Oliver, G.F.Pearce, E.A.Peterson, D.A.Petyt, L.E.Price, K.Ruddick, M.Sanchez, J.Schneps, A.Stassinakis, J.L.Thron, S.P.Wakely, N.West Search for Nucleon Decay with Final States l+η0, (ν-bar)η0, and (ν-bar)π+, 0 using Soudan 2 RADIOACTIVITY 1n, 1H; measured T1/2 lower limits for various decay modes. Soudan 2 iron tracking calorimeter.
doi: 10.1103/PhysRevD.62.092003
1998AL14 Phys.Lett. 427B, 217 (1998) W.W.M.Allison, G.J.Alner, D.S.Ayres, G.Barr, W.L.Barrett, C.Bode, P.M.Border, C.B.Brooks, J.H.Cobb, R.Cotton, H.Courant, D.M.Demuth, T.H.Fields, H.R.Gallagher, C.Garcia-Garcia, M.C.Goodman, R.Gran, T.Joffe-Minor, T.Kafka, S.M.S.Kasahara, W.Leeson, P.J.Litchfield, N.P.Longley, W.A.Mann, M.L.Marshak, R.H.Milburn, W.H.Miller, L.Mualem, A.Napier, W.P.Oliver, G.F.Pearce, E.A.Peterson, D.A.Petyt, L.E.Price, K.Ruddick, J.Schneps, M.H.Schub, R.Seidlein, A.Stassinakis, H.Tom, J.L.Thron, V.Vassiliev, G.Villaume, S.Wakely, D.Wall, N.West, U.M.Wielgosz Search for the Proton Decay Mode p → νK+ in Soudan 2 RADIOACTIVITY 1H; measured νK+ decay mode T1/2 lower limit.
doi: 10.1016/S0370-2693(98)00380-3
1989AD13 Phys.Rev.Lett. 63, 2349 (1989) M.Aderholz, M.M.Aggarwal, H.Akbari, P.P.Allport, P.V.K.S.Baba, S.K.Badyal, M.Barth, J.P.Baton, H.H.Bingham, E.B.Brucker, R.A.Burnstein, R.C.Campbell, R.Cence, T.K.Chatterjee, E.F.Clayton, G.Corrigan, C.Coutures, D.Deprospo, Devanand, E.De Wolf, P.J.W.Faulkner, W.B.Fretter, V.K.Gupta, J.Guy, J.Hanlon, G.Harigel, F.Harris, M.A.Jabiol, P.Jacques, V.Jain, G.T.Jones, M.D.Jones, R.W.L.Jones, T.Kafka, M.Kalelkar, P.Kasper, P.Kasper, G.L.Kaul, M.Kaur, J.M.Kohli, E.L.Koller, R.J.Krawiec, M.Lauko, J.Lys, W.A.Mann, P.Marage, R.H.Milburn, D.B.Miller, I.S.Mittra, M.M.Mobayyen, J.Moreels, D.R.O.Morrison, G.Myatt, P.Nailor, R.Naon, A.Napier, M.Neveu, D.Passmore, M.W.Peters, V.Z.Peterson, R.Plano, N.K.Rao, H.A.Rubin, J.Sacton, B.Saitta, P.Schmid, N.Schmitz, J.Schneps, R.Sekulin, S.Sewell, J.B.Singh, P.M.Sood, W.Smart, P.Stamer, K.E.Varvell, W.Venus, L.Verluyten, L.Voyvodic, H.Wachsmuth, S.Wainstein, S.Willocq, W.Wittek, G.P.Yost Coherent Production of π+ and π- Mesons by Charged-Current Interactions of Neutrinos and Antineutrinos on Neon Nuclei at the Fermilab Tevatron NUCLEAR REACTIONS 1H, Ne(ν, X), (ν-bar, X), E=40-300 GeV; measured coherent single π+, π- production σ, kinematic distributions. Meson dominance, partial axial-vector current conservation model.
doi: 10.1103/PhysRevLett.63.2349
1980UN01 Appl.Radiat.Isot. 31, 611 (1980) M.P.Unterweger, B.M.Coursey, F.J.Schima, W.B.Mann Preparation and Calibration of the 1978 National Bureau of Standards Tritiated-Water Standards
doi: 10.1016/0020-708X(80)90017-4
1976MA31 Int.J.Appl.Radiat.Isotop. 27, 187 (1976) The Standardization of Iodine-129 by Beta-Photon Coincidence Counting RADIOACTIVITY 129I; measured βγ-coin.
doi: 10.1016/0020-708X(76)90134-4
1974CH40 Nucl.Phys. A229, 79 (1974) W.M.Chew, A.C.Xenoulis, R.W.Fink, F.J.Schima, W.B.Mann The L/K Electron Capture Ratio in First-Forbidden 81gKr Decay RADIOACTIVITY 81gKr [from (n, γ)]; measured L/K EC ratio; deduced Q(EC), log ft, J, π. Multiwire proportional counter; isotope separated sources. Enriched 80Kr target.
doi: 10.1016/0375-9474(74)90677-0
1973HU10 Nucl.Instrum.Methods 112, 187 (1973) J.M.R.Hutchinson, W.B.Mann, P.A.Mullen Sum-Peak Counting with Two Crystals RADIOACTIVITY 60Co, 94Nb, 88Y, 22Na, 26Al, 207Bi; measured βγ-coin, γγ-coin.
doi: 10.1016/0029-554X(73)90794-5
1971BA89 Int.J.Appl.Radiat.Isotop. 22, 777 (1971) I.L.Barnes, S.B.Garfinkel, W.B.Mann Nickel-63: Standardization, Half-Life and Neutron-Capture Cross-Section RADIOACTIVITY 63Ni; measured T1/2. NUCLEAR REACTIONS 63Ni(n, γ), E=reactor spectrum; measured σ.
doi: 10.1016/0020-708X(71)90143-8
1969HU09 Intern.J.Appl.Radiation Isotopes 20, 493 (1969) J.M.R.Hutchinson, W.B.Mann, C.N.Smith, J.K.Whittaker The Half Lives of Two Excited States in 239Np RADIOACTIVITY 243Am; measured Xγ-, αγ-delay. 239Np levels deduced T1/2.
doi: 10.1016/0020-708X(69)90002-7
1964HU09 Intern.J.Appl.Radiation Isotopes 15, 97 (1964); Nucl.Sci.Abstr. 18, 2271, Abstr.16961 (1964) The Half-Life of Carbon-14: Comments on the Mass-Spectrometric Method NUCLEAR STRUCTURE 14C; measured not abstracted; deduced nuclear properties.
doi: 10.1016/0020-708X(64)90038-9
1961MA32 Intern.J.APP6.Radiation Isotopes 11, 57 (1961) W.B.Mann, W.F.Marlow, E.E.Hughes NUCLEAR STRUCTURE 14C; measured not abstracted; deduced nuclear properties.
1958SE49 J.Research Natl.Bur.Standards 60, 447 (1958) H.H.Seliger, W.B.Mann, L.M.Cavallo Average Energy of Sulfur-35 Beta Decay
doi: 10.6028/jres.060.045
1955HA09 J.Research Natl.Bur.Standards 54, 47 (1955) R.W.Hayward, D.D.Hoppes, W.B.Mann Branching Ratio in the Decay of Polonium-210
doi: 10.6028/jres.054.006
1949HA52 Can.J.Res. 27B, 545 (1949) R.C.Hawkings, R.F.Hunter, W.B.Mann, W.H.Stephens Half-Life of Carbon 14
doi: 10.1139/cjr49b-054
1938MA01 Phys.Rev. 54, 649 (1938) Nuclear Transformations Produced in Zinc by α-Particle Bombardment
doi: 10.1103/PhysRev.54.649
1938MA02 Phys.Rev. 53, 212 (11) (1938) Nuclear Transformations Produced in Zinc by Alpha-Particle Bombardment NUCLEAR REACTIONS Zn(α, X)67Ga/70Ga/71Ge, E=15 MeV; measured reaction products; deduced new isotopes T1/2.
1937MA08 Phys.Rev. 52, 405 (1937) Nuclear Transformations Produced in Copper by Alpha-Particle Bombardment NUCLEAR REACTIONS Cu(α, X)68Ga/66Ga, E=11 MeV; measured reaction products, Eβ, Iβ; deduced positron energy spectrum, T1/2, σ.
doi: 10.1103/physrev.52.405
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