NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = R.Anholt Found 21 matches. 1993MO03 Phys.Rev.Lett. 70, 537 (1993) J.D.Molitoris, W.E.Meyerhof, Ch.Stoller, R.Anholt, D.W.Spooner, L.G.Moretto, L.G.Sobotka, R.J.McDonald, G.J.Wozniak, M.A.McMahan, L.Blumenfeld, N.Colonna, M.Nessi, E.Morenzoni Molecular-Orbital Study of Late-Fission Times in Deep-Inelastic 238U + 238U Collisions NUCLEAR REACTIONS 238U(238U, X), (238U, F), E=7.5 MeV/nucleon; measured K-vacancy production probability for no-fission, single-, double fission channels; deduced U-like products late fission time scales.
doi: 10.1103/PhysRevLett.70.537
1986MO04 Z.Phys. A323, 127 (1986) J.D.Molitoris, R.Anholt, W.E.Meyerhof, O.K.Baker, S.Andriamonje, E.Morenzoni K-Vacancy Production in High-Energy U + U and U + Pb Collisions at Small Impact Parameters NUCLEAR REACTIONS 238U, 208Pb(238U, X), E=4.6, 5.8, 7.3 MeV/nucleon; measured E X-ray, I X-ray. 238U, 208Pb deduced K-vacancy production probabilities.
1986MO28 Z.Phys. D4, 133 (1986) E.Morenzoni, R.Anholt, W.E.Meyerhof Separated Projectile and Target K X-Ray Production in Symmetric Heavy Ion Collisions as a Function of the Target Thickness ATOMIC PHYSICS Ni(Ni, Ni'γ), E=94 MeV; Cu(Cu, Cu'γ), E=90 MeV; 93Nb(93Nb, 93Nb'γ), E=75, 90 MeV; Ag(Ag, Ag'γ), E=105 MeV; measured projectile, target K X-ray emission σ, Kα/Kβ ratios, Kα, Kβ energy shifts vs target thickness; deduced average L, M shell population, K-shell fluorescence. Si-Li detector. Molecular orbital model calculations.
doi: 10.1007/BF01437351
1986MO29 Z.Phys. D2, 91 (1986) J.D.Molitoris, Ch.Stoller, R.Anholt, W.E.Meyerhof, D.W.Spooner, R.J.McDonald, L.G.Sobotka, G.J.Wozniak, L.G.Moretto, M.A.McMahan, E.Morenzoni, M.Nessi, W.Wolfli K-Shell Ionization in 7.5- and 8.6-MeV/a.m.u. U + U Collisions at Very Small Impact Parameters NUCLEAR REACTIONS 238U(238U, X), E=7.5, 8.6 MeV/nucleon; measured X-ray spectra; deduced K-vacancy production probability.
doi: 10.1007/BF01438230
1983AN01 Z.Phys. A309, 193 (1983) Calculations of Molecular-Orbital - Separated-Atom X-Ray Coincidences ATOMIC PHYSICS Ni(Ni, X), E=40 MeV; calculated molecular orbital X-ray production σ. Coincident, noncoincident possibility, with, without double K vacancy production.
doi: 10.1007/BF01413749
1983CH41 Phys.Lett. 130B, 246 (1983) J.F.Chemin, S.Andriamonje, E.Morenzoni, Ch.Stoller, R.Anholt, W.E.Meyerhof, O.K.Baker, J.D.Molitoris Compound Elastic Cross Sections in the Isobaric Analog Resonances 88Sr(p, p0) at 5.06 MeV and 86Sr(p, p0) at 6.02 MeV NUCLEAR REACTIONS 88Sr(p, p), E=5-5.2 MeV; 86Sr(p, p), E=5.95-6.1 MeV; measured σ(θ), K-shell ionization probability vs E in IAR region. 89,87Y deduced IAR compound elastic contribution.
doi: 10.1016/0370-2693(83)91134-6
1983ST02 Z.Phys. A310, 9 (1983) C.Stoller, J.F.Chemin, R.Anholt, W.E.Meyerhof, W.Wolfli X-Ray Study of the Deep Inelastic Reactions 1, 160-MeV 136Xe + Pb and 136Xe + 232Th ATOMIC PHYSICS 232Th, Pb(136Xe, X), E=1160 MeV; measured E(X-ray), I(X-ray); deduced production mechanism.
doi: 10.1007/BF01433605
1982AN14 Z.Phys. A308, 189 (1982) R.Anholt, W.E.Meyerhof, J.D.Molitoris, Xu Jun-Shan Pb K-Shell Ionization Probability in High-Energy Xe + Pb Collisions ATOMIC PHYSICS Pb(Xe, X), E=5.9, 7.2, 8.5 MeV/nucleon; measured K-shell ionization probability.
doi: 10.1007/BF01418279
1982AN21 Phys.Lett. 118B, 245 (1982) R.Anholt, J.F.Chemin, P.A.Amundsen K-Shell Ionization across Isobaric Analog Resonances NUCLEAR REACTIONS 86Sr(p, p), E=4.7-4.9 MeV; calculated σ(θ), K-shell ionization probability near IAR. Direct, compound elastic contributions.
doi: 10.1016/0370-2693(82)90176-9
1982CH24 Phys.Rev. A26, 1239 (1982) J.-F.Chemin, W.E.Meyerhof, R.Anholt, J.D.Molitoris, Ch.Stoller Measurement of the K-Shell Ionization Probability across a Wide Resonance: 88Sr(p, p0) at 6.06 MeV NUCLEAR REACTIONS 88Sr(p, p), E=6.06 MeV; measured σ(θ), K-shell ionization probability vs E; deduced nuclear resonance role in ionization probability time delay. Blair-Anholt theory.
doi: 10.1103/PhysRevA.26.1239
1981CH27 Phys.Rev. A24, 1218 (1981) J.F.Chemin, R.Anholt, Ch.Stoller, W.E.Meyerhof, P.A.Amundsen Measurement of 88Sr K-Shell Ionization Probability across the Nuclear Elastic-Scattering Resonance at 5060 keV NUCLEAR REACTIONS 88Sr(p, p), E=4965-5212 keV; measured p(X-ray)-coin; deduced K-shell ionization probability. Enriched target.
doi: 10.1103/PhysRevA.24.1218
1979AN02 Z.Phys. A289, 349 (1979) R.Anholt, H.-H.Behncke, S.Hagmann, P.Armbruster, F.Folkmann, P.H.Mokler K-Vacancy Production by 3.6-, 4.75-, and 5.9-MeV/amu 238U Ions NUCLEAR REACTIONS C, U(238U, X), E=3.6, 4.75, 5.9 MeV/nucleon; measured projectile-target, K-vacancy production σ. Molecular model of HI-atom collision.
doi: 10.1007/BF01409385
1979AN10 Z.Phys. A291, 287 (1979) R.Anholt, W.E.Meyerhof, C.Stoller Impact-Parameter Dependence of 1sσ Vacancy Production in 4.6-MeV/a.m.u. Xe + Pb Collisions ATOMIC PHYSICS Pb(Xe, X), E=4.6 MeV/amu; measured X-ray(particle)-coin. Pb deduced probability of 1sσ vacancy.
doi: 10.1007/BF01409197
1979AN13 Z.Phys. A291, 289 (1979) Theory of the Angular Distribution of 2pσ Molecular Orbital X-Rays NUCLEAR REACTIONS Nb(Nb, X), E=35-75 MeV; calculated σ, anisotropy of 2pσ molecular orbital X-ray.
doi: 10.1007/BF01408377
1979AN21 Z.Phys. A292, 123 (1979) Theory of Molecular-Orbital and Compound-Nucleus X-Ray Emission in Heavy-Ion-Atom Collisions with Nuclear Sticking NUCLEAR REACTIONS Ni(Ni, X), E=200 MeV; Yb(Yb, X), E=860 MeV; calculated K-X-ray emission probability for different compound nuclear T1/2; deduced conditions for distinguishing molecular orbital X-rays from compound nucleus X-rays.
doi: 10.1007/BF01441618
1979AN30 Phys.Lett. 88B, 262 (1979) Electronic 1sσ Vacancy Production in Deep-Inelastic Nuclear Reactions NUCLEAR REACTIONS Bi(Xe, X), E=1130 MeV; calculated 1sσ vacancy production probability.
doi: 10.1016/0370-2693(79)90462-3
1979ME06 Phys.Lett. 84B, 59 (1979) W.E.Meyerhof, R.Anholt, W.Wolfli Compound-Nucleus X-Rays from Heavy-Ion Reactions NUCLEAR REACTIONS K, Ni, Ge, Br, Y(84Kr, X), E=350 MeV; measured prompt X-ray spectra from evaporation residues; deduced energy-integrated prompt K-vacancy σ.
doi: 10.1016/0370-2693(79)90648-8
1977ME11 Phys.Lett. 69B, 41 (1977) W.E.Meyerhof, R.Anholt, Y.El Masri, I.Y.Lee, D.Cline, F.S.Stephens, R.M.Diamond Positron Production in Heavy-Ion Collisions NUCLEAR REACTIONS Th, 197Au, 27Al(136Xe, X), E=624 MeV; measured positron spectra.
doi: 10.1016/0370-2693(77)90127-7
1975ME07 Phys.Rev. A11, 1083 (1975) W.E.Meyerhof, R.Anholt, T.K.Saylor, P.D.Bond K X-Ray Yield from 100-MeV Pb+Pb Collisions ATOMIC PHYSICS Pb(Pb, X), E=87.7, 107.2 MeV;measured K X-ray yields.
doi: 10.1103/PhysRevA.11.1083
1974AN09 Phys.Rev. A9, 585 (1974) Theoretical X-Ray Transition Probabilities for High-Z Superheavy Elements ATOMIC PHYSICS Z=92-170; calculated K-, L- X-ray transition probabilities.
doi: 10.1103/PhysRevA.9.585
1973AN10 Nucl.Phys. A209, 72 (1973) R.Anholt, J.O.Rasmussen, I.Rezanka A 7.3 ms Isomer of 161Lu NUCLEAR REACTIONS 148Sm(19F, 6n), E=105-145 MeV; measured Eγ, Iγ, I(X), T1/2. 161Lu deduced ICC, levels, T1/2, J, π. Enriched target.
doi: 10.1016/0375-9474(73)90052-3
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