83ga01 nuclear reactions - wiley-vch - home the beta strength function of 240 bk and the fission...
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83Ga01 Systematics of Nonequilibrium Neutron Emission
A. Gavron, J. R. Beene, B. Cheynis, R. L. Ferguson, F. E. Obenshain, F. Plasil, G. R. Young, G. A. Petitt, C. F. Maguire, D.G. Sarantites, M. Jaaskelainen, K. Geoffroy-Young, Phys. Rev. C27, 450 (1983).
Nuclear Reactions: 158Gd(12C,xn), E=192 MeV; 150Nd(20Ne, xn), E=176, 239 MeV; measured neutron spectra; deduced none-quilibrium emission systematics. Moving hot source, Boltzmann master equation models.
83Ga02 Coexistence of Single-Particle, Collective-Quadrupole, and α + 14C Molecular-Dipole Degrees of Freedom in 18O
M. Gai, M. Ruscev, A. C. Hayes, J. F. Ennis, R. Keddy, E. C. Schloemer, S. M. Sterbenz, D. A. Bromley, Phys. Rev. Lett. 50,239 (1983).
Nuclear Reactions: 14C(7Li,t), E=15 MeV; 14C(α,γ), E=resonance; measured tγ-coin, resonance capture γ-spectra. 18O deducedγ-transition multipolarity, β(λ), single particle, collective quadrupole, molecular dipole degrees of freedom coexistence.
83Ga03 0+ → 0- Beta Decay of 16C
C. A. Gagliardi, G. T. Garvey, N. Jarmie, R. G. H. Robertson, Phys. Rev. C27, 1353 (1983).
Radioactivity: 16C(β-), (β-n) [from 14C(t, p), E=6 MeV]; measured β(t), γ(t), βγ-coin; deduced log ft. 16N levels deduced β-branching ratio.
83Ga04 Evidence of the Spectator Role of Unpaired Nucleons of the Target Nucleus in (p,α) Reactions
E. Gadioli, E. Gadioli Erba, R. Gaggini, P. Guazzoni, P. Michelato, A. Moroni, L. Zetta, Z. Phys. A310, 43 (1983).
Nuclear Reactions: 90, 91Zr, 122Sn, 123Sb, 142, 143, 144Nd, 208Pb, 209Bi(p, α), E 24 MeV; measured σ(θα,Eα); deduced reactionmechanism, structure effects.
83Ga05 The Beta Strength Function of 240Bk and the Fission Barrier of Neutron-Deficient Actinides
D. Galeriu, J. Phys. (London) G9, 309 (1983).
Nuclear Structure: 244, 246, 248Cf; 248, 250Fm; calculated fission barrier heights. Experimental data, β-decay strength functioninputs.
Radioactivity: 240Bk [from 241Am(3He,4n), E=33 MeV]; measured β+-delayed fission T1/2; deduced β+-delayed fission probability.240Cm deduced fission barrier parameters. β-decay strength function input.
Nuclear Reactions: ICPND 241Am(3He,4n), E=33 MeV; measured production σ for 240Bk.
83Ga06 Excited States of 76As
Z. Gacsi, Ya. Guyash, T. Kibedi, E. Koltai, A. Krasnakhorkai, T. Fenesh, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 45 (1983).
Nuclear Reactions: 76Ge(p,n), E=3.2 MeV; measured Eγ, Iγ, I(ce). 76As deduced levels, J, π, ICC, γ-multipolarity, γ-branching,configuration. Enriched target, superconducting magnet transporter, Ge(Li), Si-Li detectors.
83Ga07 Neutron-Hole Strength Distributions in Heavy Nuclei (II). The 144, 148, 152Sm(3He, α)143, 147, 151Sm and the 144, 148, 150, 152,154Sm(p,d)143, 147, 149, 151, 153Sm Reactions
S. Gales, G. M. Crawley, D. Weber, B. Zwieglinski, Nucl. Phys. A398, 19 (1983).
Nuclear Reactions: 144, 148, 152Sm(3He,α), E=70 MeV; measured σ(Eα,θ); 144, 148, 150, 152, 154Sm(p,d), E=42 MeV; measuredσ(Ed,θ). 143, 147, 149, 151, 153Sm deduced levels, L, J, π, C2S. Enriched target, magnetic spectrometer. Zero-range, finite-rangeDWBA calculations, inner-shells analysis. Comparison with the quasiparticle phonon, Nilsson models.
83Ga08 Pion-Deuteron Scattering and the Range of the Pion-Nucleon Amplitude
H. Garcilazo, Phys. Rev. C27, 2405 (1983).
Nuclear Reactions: 2H(π,π), E=50-350 MeV; calculated σ(E); deduced form factor range. Relativistic three-body theory, momen-tum space.
83Ga09 Neutron and Proton Transition Matrix Elements for 90Zr from a Microscopic Analysis of 0.8 GeV Proton Inelastic Scattering
M. M. Gazzaly, N. M. Hintz, M. A. Franey, J. Dubach, W. C. Haxton, Phys. Rev. C28, 294 (1983).
Nuclear Reactions: 90Zr(p,p’), E=0.8 GeV; measured absolute σ(θ). 90Zr levels deduced core to total deformation parameterratio, enhancement factors, neutron, proton matrix element ratios. DWIA, shell model transition densities.
83Ga10 The Structure of Rotating Deformed Nuclei
J. D. Garrett, G. B. Hagemann, B. Herskind, Nucl. Phys. A400, 113c (1983).
Nuclear Structure: 161, 163, 165Yb; calculated routhians. Cranked shell model.
83Ga11 Molecular Alpha-Particle Clustering in 218Ra; Dipole collectivity in the vicinity of nuclear shell closures
M. Gai, J. F. Ennis, M. Ruscev, E. C. Schloemer, B. Shivakumar, S. M. Sterbenz, N. Tsoupas, D. A. Bromley, Phys. Rev. Lett.51, 646 (1983).
Nuclear Reactions: 208Pb(13C,3n), E=59, 59.5, 67 MeV; measured σ(Eγ), γγ-coin, γ(θ), αγ(t), σ(Eα), recoil. 218Ra deduced levels,J, π, B(λ), B(E1)/B(E2), α-clustering.
83Ga12 Investigation of Charge Exchange Reactions (6Li, 6He)
F. A. Gareev, S. A. Goncharov, S. N. Ershov, G. S. Kazacha, E. Bang, Yad. Fiz. 38, 73 (1983).
Nuclear Reactions: 14C(6Li,6He), E=62 MeV; calculated σ(θ). Charge exchange spin-flip reaction, three-body cluster, recoileffects.
83Ga13 Nuclei: A superfluid condenstate of α particles ( question ): a study within the interacting-boson model
Y. K. Gambhir, P. Ring, P. Schuck, Phys. Rev. Lett. 51, 1235 (1983).
Nuclear Structure: 164Dy, 168Er, 172Hf, 180W, 184Os, 188Pt, 192Hg, 196Pb, 200Po, 204Rn; calculated binding energy even-oddstaggering vs boson number; deduced possible α-particle superfluid condensate. Proton-neutron interacting boson model, experi-mental binding energy input.
83Ga14 Application of the Quasielastic Knockout Model to the Description of Cumulative Fragmentation Spectra
L. I. Galanina, N. S. Zelenskaya, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 1018 (1983)
Nuclear Reactions: 12C(d,dα), E at 4 GeV/c; calculated reaction form factors. Quasielastic knockout model.
83Ga15 Gamow-Teller Resonances
C. Gaarde, Phys. Scr. T5, 55 (1983).
Nuclear Reactions: 89Y(3He,t), E=0.6, 1.2, 2 GeV; 12C(3He, t), E=2 GeV; measured σ(Et,θ=00). 54Fe(3He, t), E=0.6 GeV; meas-ured σ(Et,θ), θ=0-80; deduced Gamow-Teller strength distribution systematics, isobar excitation role. 12N, 54Cr, 90Zr deducedselective spin-isospin mode excitation. Intermediate energy (p,n) data input.
83Ga16 High Spin Phenomena in the Mass 100-200 Region Seen through the Crystal Ball
J. J. Gaardhoje, J. D. Garrett, G. B. Hagemann, B. Herskind, A. Holm, P. Nolan, G. Sletten, J. R. Beene, M. L. Halbert, D. C.Hensley, I. Y. Lee, F. Plasil, F. A. Dilmanian, M. Jaaskelainen, H. Puchta, D. G. Sarantites, R. Woodward, Th. Lindblad, Phys.Scr. T5, 178 (1983).
Nuclear Reactions: 112, 114Cd, 96Zr, 135Ba, 124Sn(50Ti, X), E=230 MeV; measured entry region γ-spectra average properties;deduced γ-ray fold distribution mass dependence. 166, 164, 162, 160, 156Yb deduced γ-ray fold distribution neutron dependence.Spin spectrometer.
83Ga17 Hypernuclear γ Lines following Proton Emission from (K-,π-) Coherent Excitations in Light Nuclei
A. Gal, Phys. Rev. C28, 2186 (1983).
Nuclear Reactions: 16O, 14N(K-,π-), E not given; calculated proton emission relative yields; deduced hypernuclei γ-transitions.
83Ga18 16N(0-) Beta Decay and Weak Axial Vector Meson Exchange Currents
C. A. Gagliardi, G. T. Garvey, J. R. Wrobel, S. J. Freedman, Phys. Rev. C28, 2423 (1983).
Nuclear Reactions: 19F(p,α), E=3 MeV; measured σ(Eα), σ(θ).
Radioactivity: 16N(β-) [from 15N(d,p), E=3.8 MeV]; measured Eγ, Iγ, Eβ, Iβ, β-decay rate vs t; deduced (gp/g(A)). 16N leveldeduced β-decay probability. 16O levels deduced Iβ. Calibration with 19F(p,α) reaction. Comparison with theory.
83Ga19 Giant Dipole Resonance in the Statistical Decay of 63Cu, 76Kr, and 127Cs Compound Nuclei
E. F. Garman, K. A. Snover, S. H. Chew, S. K. B. Hesmondhalgh, W. N. Catford, P. M. Walker, Phys. Rev. C28, 2554 (1983).
Nuclear Reactions: ICPND 51V, 64Zn, 115In(12C, γ), 45Sc, 58Ni, 109Ag(18O, γ), E=42-60 MeV; measured σ vs Eγ. 63Cu, 76Kr,127Cs deduced average angular momentum, GDR parameters. Statistical model.
83Ga20 Ground State Properties of Actinide Nuclei
D. Galeriu, Rev. Roum. Phys. 28, 477 (1983).
Nuclear Structure: 237U, 247Cm; calculated single-particle E(n). 238U, 241Pu, 246Cm; calculated potential energy surfaces. 230,231, 232, 233, 234, 235, 236, 237, 239, 240U, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243Pu, 238, 239, 240, 241, 242, 243,244, 245, 246, 247, 248, 249, 250Cm, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253Cf, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254,255Fm; calculated mass excess differences. 234, 236, 238U, 235, 237, 239, 241Pu, 242, 244, 246Cm; calculated electric quadrupolemoment. 230Th; calculated level density energy dependence. A=230-255; calculated level spacing, ratio to data. Macroscopic-microscopic method.
83Ga21 Combined Use of Delayed Neutrons and Gamma Quanta of Photofission for the Identification of Fissile Nuclides
P. P. Ganich, A. S. Krivokhatsky, A. I. Lendel, V. I. Lomonosov, A. I. Parlag, D. I. Sikora, S. I. Sychev, At. Energ. 55, 247(1983); Sov. At. Energy 55, 693 (1983).
Nuclear Reactions: 232Th, 235, 238U, 237Np, 239Pu(γ, F)133I, E=15 MeV bremsstrahlung; measured residual γ yield, delayed neu-tron time distribution following fission; deduced kinetic functions.
83Ga22 The Contribution from Quasielastic Ejection to the Inclusive Spectra of Light Fragments Ejected into the Rear Hemisphere
L. I. Galanina, N. S. Zelenskaya, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 2130 (1983); Bull. Acad. Sci. USSR, Phys. Ser. 47, No.11, 46 (1983).
Nuclear Reactions: 12C(p,p3He), (p,pα), E at 7.5 GeV/c; calculated σ(E(3He)), σ(Eα); deduced reaction mechanism.
83Ga23 Phase Transformation Study of Cu2S
J. A. Gardner, D. K. Gaskill, M. Hirscher, H. Jaeger, K. S. Krane, R. L. Rasera, Hyperfine Interactions 15/16, 849 (1983).
Radioactivity: 111In(EC); measured γγ(θ,H,t); deduced 111Cd impurity electric quadrupole interaction, Cu2S phase transforma-tions.
83GaZQ
Conference proceedings: Moscow, P120,Ganbaatar
Radioactivity: 157Ho, 157Er(EC), (β+); measured Eγ, Iγ, I(ce). 157Dy, 157Ho levels deduced quadrupole moments, δ. Toroidal β-spectrometer, Ge(Li) detectors.
83GaZR Conversion Electrons from the Decay of Short Lived Ho Nuclei
N. Ganbataar, Ya. Kormitski, K. A. Mezilev, Yu. N. Novikov, A. M. Nurmukhamedov, A. Potempa, E. Cenyavski, F. Tarakin,Program and Theses, Proc. 33rd Ann. Conf. Nucl. Spectrosc. Struct. At. Nuclei, Moscow, p. 113 (1983).
Radioactivity: 151, 153, 154Ho(EC), (β+) [from on-line separator]; measured I(ce). 151, 153, 154Dy transitions deduced ICC, γ-multipolarity. Si-Li spectrometer.
83GaZS
Conference proceedings: Moscow, P104,Ganbaatar
Radioactivity: 146, 148, 150Dy(EC), (β+), 152Dy(EC), 150, 152, 154Er, 156, 158, 160, 162Yb(EC), (β+), 164Yb(EC); measured not given;deduced Gamow-Teller β-transitions, log ft.
83GaZT New Isomer States of the Nuclei 131Pr, 138Pm, 146Tb
N. Ganbaatar, Ya. Kormitski, K. A. Mezilev, Yu. N. Novikov, A. M. Nurmukhamedov, A. Potempa, E. Senyavski, F. Tarkani,Program and Theses, Proc. 33rd Ann. Conf. Nucl. Spectrosc. Struct. At. Nuclei, Moscow, p. 90 (1983).
Radioactivity: 131, 131mPr(β+), (EC); measured I(K X-ray)(t); deduced T1/2. 138Sm(β+), (EC); measured T1/2. 138mPm(β+), (EC);
measured Eγ, Iγ, Eβ+, Iβ+(t); deduced T1/2. 146mTb(β+), (EC); measured Eβ+; deduced J, π. Hyperpure Ge detector.
83GaZU
Journal: BAPSA 28 995, EC1,Gazzaly
Nuclear Reactions: 1H(polarized p,p), E at 1.46, 1.28 GeV/c; measured all asymmetries; deduced double spin-flip amplitudes.Polarized target.
83GaZV
Journal: BAPSA 28 980, CB8,Gazes
Nuclear Reactions: 93Nb(16O,pX), E=135 MeV; measured σ(Ep), p(fragment)-coin. 96Mo(16O,X), (16O, pX), E=100-140 MeV;measured γ-multiplicity. Statistical, TDHF, incomplete fusion model analyses.
83GaZW
Journal: BAPSA 28 964, AB2,Garg
Nuclear Reactions: 144, 148Sm, 142, 146, 150Nd(α, α’), E=129 MeV; measured σ(Eα). 148Sm, 146Nd deduced L=0, 2 multipoleresonance mixing. 150Nd deduced giant monopole resonance splitting.
83GaZX
Report: INDC(ROM)-15/GI, Garlea
Nuclear Reactions: 235, 238U, 239Pu, 232Th, 237Np(n, F), E=14. 75 MeV; measured fission σ, fission rates. Calibrated fissionchambers. 197Au, 93Nb(n, 2n), 27Al(n,α), 56Fe(n,p), 115In(n, n’), E=14.75 MeV; measured σ. Activation technique.
83GaZY
Journal: BAPSA 28 718, GF16,Gauntt
Nuclear Reactions: 107Ag(37Cl,α), E=160-215 MeV; measured αγ-coin, γ-multiplicities. Statistical model analysis.
83GaZZ
Journal: BAPSA 28 687, DE11,Gai
Nuclear Reactions: 208Pb(13C,3n), E=67 MeV; measured recoil distance. 218Ra levels deduced T1/2, B(E2), B(E1)/B(E2) branch-ing ratios.
83Ge01 Rotation-Vibration Interaction Strength in 232Th
J. Gerl, Th. W. Elze, H. Ower, K. Ronge, H. Bohn, T. Faestermann, Phys. Lett. 120B, 83 (1983).
Nuclear Reactions: 232Th(32S,32S’), E=135 MeV; measured Coulomb excitation, γ(32S)-coin. 232Th deduced γ-branching, B(E2)ratio. Collective model.
83Ge02 The Quadrupole Moment of 176Lu
J. Gerl, K. Ronge, K. Venkata Ramaniah, Th. W. Elze, A. Hanser, Z. Phys. A309, 275 (1983).
Nuclear Reactions: 176Lu(α,α), (α,α’), E=9.5, 13.5, 14 MeV; measured Coulomb excitation, σ(Eα). 176Lu deduced intrinsic qua-drupole moment, level, collective character.
83Ge03 Inelastic Scattering of 162-MeV Pions by 14N
D. F. Geesaman, D. Kurath, G. C. Morrison, C. Olmer, B. Zeidman, R. E. Anderson, R. L. Boudrie, H. A. Thiessen, G. S. Blan-pied, G. R. Burleson, R. E. Segal, L. W. Swenson, Phys. Rev. C27, 1134 (1983).
Nuclear Reactions: 14N(π+,π+), (π+,π+’), (π-,π-), (π-,π-’), E=162 MeV; measured σ(θ), σ(E(π)). 14N levels deduced B(λ). DWIAanalysis, shell model wave functions.
83Ge04 Evidence of an Angular Dependence of the Fissionlike Fragmentation for the 32S + 59Co System at 5 MeV/Nucleon
M. Gentili, I. Massa, G. Vannini, P. Boccaccio, F. Reffo, R. A. Ricci, I. Iori, Lett. Nuovo Cim. 36, 97 (1983).
Nuclear Reactions: 59Co(32S,X), E=154, 161 MeV; measured σ(fragment θ,A).
83Ge05 Rotational Limit of the Interacting Two-Vector-Boson Model
A. Georgieva, P. Raichev, R. Roussev, J. Phys. (London) G9, 521 (1983).
Nuclear Structure: 156Gd, 170Er, 234U; calculated levels, B(E2) ratios. Interacting two-vector boson model, rotational limit.
83Ge06 The Quadrupole Moment of 176Lu
J. Gerl, K. Ronge, K. Venkata Ramaniah, Th. W. Elze, A. Hanser, L. D. Tolsma, Z. Phys. A310, 349 (1983).
Nuclear Reactions: 176Lu(α,α), (α,α’), E=9.5, 13.5, 14 MeV; measured σ(Eα), Coulomb excitation. 176Lu deduced intrinsic qua-drupole moment, possible new level.
83Ge07 Giant Hyperfine Field on 151Eu in EuFe4P12
A. Gerard, F. Grandjean, J. A. Hodges, D. J. Braun, W. Jeitschko, J. Phys. (London) C16, 2797 (1983).
Nuclear Reactions: 151Eu(γ,γ), E=14.4 keV; measured Mossbauer spectrum vs temperature; deduced anomalous high hyperfinefield on 157Eu in EuFe4P12.
83Ge08 The Experimental Tools to Exploit the Daresbury Nuclear Structure Facility
W. Gelletly, Nucl. Instrum. Methods 211, 89 (1983).
Radioactivity: 158, 160, 161, 162, 163, 164, 165Lu(EC), (β+) [from 155Gd(14N, nx), E 95 MeV; 151Eu(16O,xn)]; measured γ(X-ray)-, γγ-,(X-ray)(X-ray)-coin, T1/ 2, γγ(θ), Q(EC), I(ce). 163Yb deduced levels. 160, 162, 164Yb deduced levels, J, π. Helium jet recoil tran-sport system.
83Ge09 Search for a Three-Particle Component of the E(cm) = 11.1 MeV 5- Resonance in the 12C + 16O Reaction
H. U. Gersch, H. Schobbert, D. Wohlfarth, J. Phys. (London) G9, 939 (1983).
Nuclear Reactions: 12C(16O,α), E=25-27 MeV; measured σ(E). 12C(16O,α12C), E=25.964 MeV; measured σ(E(12C)), (12C)(12C)-coin. 28Si deduced resonance, no direct three-body decay.
83Ge10 Angular Correlations of Inelastically Scattered α Particles and γ Quanta for Exchange Processes in Presence of Distortions inthe Eikonal Approximation
G. Yu. Gerasimova, N. S. Zelenskaya, Yad. Fiz. 38, 65 (1983).
Nuclear Reactions: 12C(α,α’γ), E=25.3 MeV; analyzed αγ(θ) data. Eikonal approximation, distortion effects, exchangeprocesses.
83Ge11 Emission Probability of the 316-keV γ-Ray Emitted in the Decay of 146Ce
R. J. Gehrke, Int. J. Appl. Radiat. Isotop. 34, 1437 (1983).
Radioactivity: 146Ce(β-); measured T1/2. 146Pr deduced transition, γ-emission probability, relative Iγ.
83Ge12 π--Nucleus Scattering Lengths from Light Pionic Atoms
P. M. Gensini, Lett. Nuovo Cim. 38, 469 (1983).
Atomic Physics: esic-Atoms 2H, 3, 4He, 6, 7Li, 9Be, 10, 11B, 12, 13C, 14N, 16, 18O, 19F, 20, 22Ne, 23Na, 24Mg; analyzed pionic K X-ray data; deduced pion-nucleus s-wave scattering lengths. Klein-Gordon bound state equation.
83Ge13 Kaonic Atom Level Shifts and K--Nucleus Scattering Lengths
P. M. Gensini, Lett. Nuovo Cim. 38, 620 (1983).
Atomic Physics: esic-Atoms 4He, 7Li, 9Be, 10, 11B, 12C, 16O, 24Mg, 27Al, 28Si, 31P, 32S, 35Cl; analyzed kaonic level shift data;deduced K--nucleus scattering lengths. Pion-, kaon-nucleus system potential differences.
83Gh01 Nuclear Structure of 195Pt and the Multi-j Supersymmetry Scheme
A. R. Ghatak-Roy, S. W. Yates, Phys. Rev. C28, 2521 (1983).
Nuclear Reactions: 195Pt(n,n’γ), E=0.5-2 MeV; measured Eγ, Iγ, σ(E,Eγ,θγ). 195Pt deduced levels, J, π, supersymmetryclassification scheme. Ge(Li) detector, enriched target. Interacting boson-fermion approximation.
83Gi01 Hyperfine-Structure Measurement of the 7S State of Cesium
S. L. Gilbert, R. N. Watts, C. E. Wieman, Phys. Rev. A27, 581 (1983).
Nuclear Moments: +133}Cs; measured hfs; deduced magnetic dipole coupling constant. Laser spectroscopy, atomic beam.
83Gi02 Coherent Pion Photoproduction
V. Girija, V. Devanathan, A. Nagl, H. Uberall, Phys. Rev. C27, 1169 (1983).
Nuclear Reactions: 4He(γ,π0), E=200-350 MeV; 12C(γ, π0), E=170-380 MeV; calculated σ(E), σ(θ). 16O(γ,π0), E=250, 290, 370MeV; 40Ca(γ,π0), E=250 MeV; calculated σ(θ). DWIA, coherent production mechanism.
83Gi03 Heavy-Ion Fusion and Its Connections with Elastic Scattering
R. Giordano, F. Porto, S. Sambataro, A. Scalia, Lett. Nuovo Cim. 36, 125 (1983).
Nuclear Reactions: 48Ti(32S,32S), E=160 MeV; 28Si(32S, 32S), E=97 MeV; analyzed σ(θ); deduced fusion, Coulomb scatteringrelation.
83Gi04 Levels in 148Ce from the Decay of Mass Separated 148La
R. L. Gill, M. Shmid, R. E. Chrien, Y. Y. Chu, A. Wolf, D. S. Brenner, K. Sistemich, F. K. Wohn, H. Yamamoto, C. Chung, W.B. Walters, Phys. Rev. C27, 1732 (1983).
Radioactivity: 148La(β-) [from 235U(n,F), E=thermal]; measured T1/2, Eγ, Iγ, γγ(t), γγ(θ). 148Ce deduced levels, J, π, Iβ. HyperpureGe, Ge(Li) detectors.
Nuclear Structure: 144, 146, 150Ce; calculated levels. 148Ce; calculated levels, B(E2) ratios. Interacting boson approximation cal-culations.
83Gi05 Mass Distributions in Monoenergetic-Neutron-Induced Fission of 239Pu
J. E. Gindler, L. E. Glendenin, D. J. Henderson, J. W. Meadows, Phys. Rev. C27, 2058 (1983).
Nuclear Reactions: 239Pu(n,F)87Kr/88Kr/91Sr/92Sr/ 93Y/97Zr/99Mo/103Ru/105Ru/ 109Pd/111Ag/112Pd/115Cd/121Sn/125Sn/127Sb/129Sb/132Te/134Te/ 133I/134I/135I/135Xe/140Ba/ 142La/143Ce, E=0.17-7.9 MeV; measured fission fragment yield vs mass,σ(fission) vs E. Activation technique.
83Gi06 Triaxial Hartree-Fock-Bogolyubov Calculations with D1 Effective Interaction
M. Girod, B. Grammaticos, Phys. Rev. C27, 2317 (1983).
Nuclear Structure: 74Ge, 76Se, 12C, 16O, 240Pu; calculated potential energy surfaces. 152Sm; calculated potential energy sur-faces, neutron, proton gap energies. 24Mg, 32S, 58, 60, 62Ni, 68, 70, 72, 74, 76Ge, 110Pd, 134Ce, 150, 152Sm; calculated collectivepotential vs parameters (β), (γ). 24Mg, 58Ni; calculated charge densities. Triaxial HFB calculations, density-dependent interac-tions.
83Gi07 Multipole Mixing Ratios of Transitions in 154Gd
C. Girit, W. D. Hamilton, C. A. Kalfas, J. Phys. (London) G9, 797 (1983).
Radioactivity: 154Eu(β-), (EC) [from 153Eu(n, γ)]; measured γγ-coin, γγ(θ), I(ce), γ(θ), γγ(θ), oriented nuclei. 154Gd levels deducedδ, relative B(E2), B(E0)/B(E2), deformation. Enriched target, Ge(Li) detector, lens spectrometer. Different model comparisons.
83Gi08 Charged Pion Photoproduction from 12C
V. Girija, M. Manimekalai, V. Devanathan, Phys. Scr. 27, 398 (1983).
Nuclear Reactions: 12C(γ,π+), E=167-193 MeV; 12C(γ, π-), E=170-320 MeV; calculated photoproduction σ(θ). DWIA analysis,final state interactions, generalized 1p-shell wave functions.
83Gi09 Spin-Isospin Ordered Shell Model States in Nuclei
G. Giberti, N. Lo Iudice, G. Varcaccio, Phys. Rev. C28, 888 (1983).
Nuclear Structure: A=16-36; 28Si; analyzed spin-isospin phase associated configurations vs nuclear densities, deformations;deduced shell effects, ordered phase correlated shell model state character.
83Gi10 Variational Estimate of a Breakup Amplitude
B. G. Giraud, M. A. Nagarajan, Phys. Rev. C28, 1918 (1983).
Nuclear Reactions: 3H(p,np), E not given; calculated breakup amplitude. Variational approach.
83Gi11 Electromagnetic Form Factors and Quark Model
M. M. Giannini, Nuovo Cim. 76A, 455 (1983).
Nuclear Structure: 1H, 1n, 3He; calculated charge form factors. Quark model.
83Gi12 Elastic, Fusion and Total Reaction Cross-Sections for the 12C + 32S System at E(32S) = 160 MeV
R. Giordano, F. Porto, S. Sambataro, A. Scalia, Nuovo Cim. 77A, 135 (1983).
Nuclear Reactions: 12C(32S,32S), (32S,X), E=160 MeV; measured σ(E(32S)), σ(θ), total reaction σ, σ(fragment θ) vs Z, σ(frag-ment) vs mass, fusion σ; deduced reaction mechanisms. Modified sum of differences method.
83Gi13 Analyzing Power of the p(pol)p → π+d Reaction at 375, 450, and 500 MeV Incident Proton Energies
G. L. Giles, E. G. Auld, G. Jones, G. J. Lolos, B. J. McParland, W. Ziegler, D. Ottewell, P. Walden, W. R. Falk, Phys. Rev.C28, 2551 (1983).
Nuclear Reactions: 1H(polarized p,π+), E=375, 450, 500 MeV; measured analyzing power vs θ(π), πd-coin. Legendre polynomialanalyses.
83GiZW
Conference proceedings: Moscow, P469,Gismatullin
Nuclear Reactions: Br, Ag(π-,π-p), E=170 MeV; measured integrated σ. Nuclear emulsion method.
83GiZX
Report: KfK-3556, Gils
Nuclear Reactions: 40, 42, 43, 44, 48Ca, 50Ti, 51V, 52Cr(α,α), E=104 MeV; analyzed σ(θ); deduced optical potential parameter iso-topic, isotonic dependences, nuclear matter density differences. Phenomenological approach, Fourier-Bessel description.
83GiZY
Journal: BAPSA 28 715, GF3,Gilfoyle
Nuclear Reactions: 13C(13C,α), E(cm)=9.3-13.4 MeV; measured σ(θ). Legendre polynomial analysis.
83GiZZ
Journal: BAPSA 28 672, BG7,Gilman
Nuclear Reactions: 14C, 26Mg(π+,π-), E=164, 292 MeV; measured σ(θ); deduced energy dependence.
83Gl01 Energy Dependence of Proton Emission in 4He and 12C Induced Reactions between 25 and 84 MeV/u
R. Glasow, G. Gaul, B. Ludewigt, R. Santo, H. Ho, W. Kuhn, U. Lynen, W. F. J. Muller, Phys. Lett. 120B, 71 (1983).
Nuclear Reactions: 58Ni(α,p), E=25, 43 MeV/nucleon; 58Ni, 197Au(12C,p), E=25, 84 MeV/nucleon; measured σ(θ,Ep); deducedsource velocity, temperature vs E. Moving source model.
83Gl02 Observation of Proximity- and Non-Equilibrium Effects in Ternary Heavy Ion Reactions
P. Glassel, D. v. Harrach, H. J. Specht, L. Grodzins, Z. Phys. A310, 189 (1983).
Nuclear Reactions: 166Er(84Kr,X), 122Sn(129Xe, X), E=12.5 MeV/nucleon; measured fragment mass < A >, variances vs totalkinetic energy loss; deduced reaction mechanism. Binary, ternary events.
83Gl03 Test of Isospin Purity by Measuring Cross Correlations in Mirror Channel Reactions
K. Glasner, D. Bohle, G. Domogala, L. M. Ricken, J. A. Weismuller, E. Kuhlmann, Phys. Rev. C27, 2977 (1983).
Nuclear Reactions: 16O(6Li,p), (6Li,nγ), E=4-8 MeV; measured σ(E); deduced linear cross correlation coefficients, < σ(n) >/< σ(p)>, isospin conservation. 22Na deduced isospin mixing matrix element. Particle, γ-ray spectroscopy. Hauser-Feshbach calculations.
83Gl04 Inclusive Inelastic Reaction np → pX at 795 MeV
G. Glass, M. Jain, L. C. Northcliffe, C. L. Hollas, C. R. Newsom, P. J. Riley, B. E. Bonner, J. E. Simmons, Phys. Rev. D28,1045 (1983).
Nuclear Reactions: 1H(n,X), E=795 MeV; measured inclusive σ(θ) vs proton momentum. One pion exchange, statistical models.
83Gl05 Multicluster Fractional Parentage Coefficients
L. Ya. Glozman, Yu. M. Tchuvilsky, J. Phys. (London) G9, 1033 (1983).
Nuclear Structure: 16O; calculated three-body breakup multi-cluster fractional parentage coefficients. Translationally invariantshell model, harmonic oscillator basis.
83Gl06 The Measurement of K(NN) and K(LL) in p(pol)p → n(pol)X at 800 MeV
G. Glass, T. S. Bhatia, J. C. Hiebert, L. C. Northcliffe, W. B. Tippens, B. J. Verwest, C. L. Hollas, C. R. Newsom, R. D. Ran-some, P. J. Riley, G. P. Pepin, B. E. Bonner, J. E. Simmons, Phys. Lett. 129B, 27 (1983).
Nuclear Reactions: 1H(polarized p,nX), E=800 MeV; measured σ(θn) vs neutron momentum, spin transfer parameters, polarizedneutrons.
83Gl07 Spin-Dependent Scattering and Absorption of Thermal Neutrons on Dynamically Polarized Nuclei
H. Glattli, J. Coustham, J. Phys. (Paris) 44, 957 (1983).
Nuclear Reactions: 13C, 35, 37Cl, 79, 81Br, 31P, 41K(n,n), (n,X), E=thermal; measured neutron phase shift, precession angle vs tar-get polarization, σ(absorption). 13C, 35Cl, 79, 81Br deduced spin-dependent part of scattering length. 31P, 37Cl, 41K deduced spin-dependent scattering length part upper limit. Dynamic target polarization, KCI, KBr, Ca3(PO4)2, BaCO3 samples.
83GlZY
Conference proceedings: Moscow, P52,Gledenov
Nuclear Reactions: 22Na, 35Cl, 40K(n,X), E=fast; measured σ. 23Na, 36Cl, 41K deduced resonances.
83GlZZ
Journal: BAPSA 28 996, EC3,Glover
Nuclear Reactions: 6, 7Li(polarized p,p), (polarized p,p’), E=200 MeV; measured σ(θ), analyzing power vs θ; deduced opticalpotential parameters. DWIA analysis, free, density-dependent nucleon-nucleon interactions.
83Gm01 Elementary-Particle Treatment of the Radiative Muon Capture in 12C
M. Gmitro, A. A. Ovchinnikova, Nucl. Phys. A399, 503 (1983).
Nuclear Reactions: 12C(µ-,γ), E at rest; calculated radiative capture γ-spectrum; deduced weak form factor role on capture rateenhancement. 12B level deduced branching ratio estimate. Elementary particle treatment, possible nonzero neutrino mass.
83GmZZ
Report: JINR-P4-83-403, Gmitro
Nuclear Reactions: 12C, 16O, 24Mg(π+,π+), 3, 4He(π-,π-)E=50-250 MeV; calculated σ(θ); deduced reaction mechanism.
83Gn01 Decay of Mass-Separated 187Au (8.4 min) to 187Pt
B. E. Gnade, R. W. Fink, J. L. Wood, Nucl. Phys. A406, 29 (1983).
Radioactivity: 187Au(EC), (β+) [from 181Ta(12C, 6n), E=100 MeV; 178Hf(14N,5n), E=103 MeV]; measured T1/2, Eγ, Iγ, I(ce), I(X-ray),
γγ(t), (ce)(γ)(t), γ(X-ray)(t), (ce)(X-ray)(t); deduced β+/EC, Q(EC), Iβ, log ft. 187Pt deduced levels, J, π, ICC, γ-multipolarity. Massseparated sources, hyperpure Ge, Ge(Li), Si-Li detectors.
83GnZZ
Journal: DABBB 43 3979, Gnade
Radioactivity: 187Au(EC), (β+); measured Eγ, Iγ, E X-ray, I X-ray, I(ce), γγ(t), γ(X-ray)(t), γ(ce)(t), (ce)(X-ray)(t), T1/2; deduced
Q(EC). 187Pt deduced i13/2 band, E0 transitions.
Nuclear Reactions: 16O(t,n), E not given; measured 18F yields. Tritons from 6Li(n,t) reaction, anion exchange, distillation pro-cedure.
83Go01 Nuclear Structure and NN Interaction Studies in Quasielastic Scattering of Electrons by 3He
V. A. Goldstein, Nucl. Phys. A392, 457 (1983).
Nuclear Reactions: 3He(e,e’p), E=806, 643 MeV; measured σ(θ(e), θp,Ep). 3He deduced proton momentum distribution. Verifiedsum rules.
83Go02 Magnetic Moments of h(-11/2) States of Even and Odd Isotopes of Te and Xe
B. I. Gorbachev, A. V. Kuznichenko, V. N. Lebedev, A. I. Levon, O. F. Nemets, O. V. Sevastyuk, Yad. Fiz. 37, 257 (1983).
Radioactivity: 128Te, 124Sn(α,2n), E=27 MeV; measured γ(θ,H,t). 130Xe, 128Te deduced isomer T1/2, g.
83Go03 Determination of NN-Potential from Phase Scattering and the Binding Energy of the Deuteron
A. M. Gorbatov, Yu. N. Krylov, B. V. Rudyak, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 84 (1983).
Nuclear Reactions: 1H(p,p), E=1-500 MeV; calculated 3S1, 3D1 mixing parameter vs E. Phase scattering.
83Go04 Verification of Sum Rules in (e,e’p) Experiments on 3He and 4He
V. A. Goldshtein, V. I. Startsev, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 130 (1983)
Nuclear Structure: 3, 4He; calculated proton number, average proton kinetic separation energies. Spectral function, electronscattering data input, sum rules.
83Go05 Study of the 2H(p,pp)n Reaction at E(p) = 47 MeV with Collinear Geometry Conditions
O. K. Gorpinich, E. P. Kadkin, S. N. Kondratev, L. S. Saltykov, B. G. Struzhko, V. V. Tokarevsky, Izv. Akad. Nauk SSSR, Ser.Fiz. 47, 179 (1983)
Nuclear Reactions: 2H(p,2p), E=47 MeV; measured σ(θ1, θ2,E1); deduced reaction mechanism. Faddeev theory, deuteronbackup, three-body forces.
83Go06 The (p,pX) Reaction on 6Li and 7Li at 70 MeV Incident Proton Energy
O. K. Gorpinich, E. P. Kadkin, S. N. Kondratev, Yu. N. Lobach, M. V. Pasechnik, L. S. Saltykov, V. V. Tokarevsky, Izv. Akad.Nauk SSSR, Ser. Fiz. 47, 185 (1983)
Nuclear Reactions: 6Li(p,2p), (p,pd), 7Li(p,pt), (p,pα), E=70 MeV; measured (particle)(particle)-coin spectra.
83Go07 Quasifree Scattering at Low Energies in 6Li(α, 2α)2H
D. Gola, W. Bretfeld, W. Burgmer, H. Eichner, Ch. Heinrich, H. J. Helten, H. Kretzer, K. Prescher, H. Oswald, W. Schnorren-berg, H. Paetz gen. Schieck, Phys. Rev. C27, 1394 (1983).
Nuclear Reactions: 6Li(α,2α), E=6.6-13 MeV; measured σ(θα1, θα2) vs arc length; deduced spectator momentum distribution.PWIA analysis, quasifree scattering, semi-classical reflection coefficient.
83Go08 Quantized ATDHF Calculations for Subbarrier Fusion of Heavy Ions
K. Goeke, F. Grummer, P. -G. Reinhard, Phys. Lett. 124B, 21 (1983).
Nuclear Reactions: ICPND 16O(16O,X), E(cm)=0.5-10 MeV; calculated fusion σ, astrophysical S-factor vs E. Subbarrier fusion,adiabatic TDHF.
83Go09 Essential Features of the Folding Potential in Heavy-Ion Scattering
L. J. B. Goldfarb, Y. K. Gambhir, Nucl. Phys. A401, 557 (1983).
Nuclear Reactions: 48Ca, 60Ni, 90Zr, 120Sn, 208Pb(16O, 16O), (16O,X), E 20 MeV; calculated real potential; deduced nucleon den-sity, effective nucleon-nucleon interaction role. Folding model.
83Go10 Distortion Effects in a Microscopical Theory of Quasi-Elastic Knock-Out of Nucleon Clusters by Fast Hadrons
N. F. Golovanova, E. T. Ibraeva, V. G. Neudachin, Yad. Fiz. 37, 883 (1983).
Nuclear Reactions: 14N(p,pd), 14N, 16O(p,pt), E not given; calculated reaction form factors; deduced virtual cluster effects.Glauber-Sitenko scattering operator, translation invariant cluster amplitudes.
83Go11 Measurements of Nuclear Deexcitation Times down to 10-19 sec using Crystal Blocking of 16O on Diamond
J. Gomez del Campo, D. Shapira, J. A. Biggerstaff, C. D. Moak, P. D. Miller, N. Neskovic, R. W. Fearick, J. P. F. Sellschop,Phys. Rev. Lett. 51, 451 (1983).
Nuclear Reactions: 12C(16O,X), E=120 MeV; measured evaporation residue yields vs θ; deduced evaporation residue deexcita-tion times. 12C(16O,16O), E=80, 120 MeV; measured yield distributions; deduced smearing parameter. Blocking technique, thickdiamond crystal. Monte-Carlo statistical model calculations.
83Go12 238U, 232Th, and 197Au Targets
B. L. Gorshkov, A. I. Ilin, B. Yu. Sokolovsky, G. E. Solyakin, Yu. A. Chestnov, Pisma Zh. Eksp. Teor. Fiz. 37, 60 (1983); JETPLett. (USSR) 37, 72 (1983).
Nuclear Reactions: 238U, 232Th, 197Au(p,F), (p,X), 184W(p,X), E=1 GeV; measured fission fragment production vs fragment-fragment momentum difference, fragment mass sum; deduced deviations from fission kinematics, low, excessive nucleon emis-sion regions.
83Go13 Nucleus-Nucleus Potential at Close Contact from Fusion at ’ High ’ Energies
J. Gomez del Campo, G. R. Satchler, Phys. Rev. C28, 952 (1983).
Nuclear Reactions: 14N, 16, 17O(10B,X), 16O(11B, X), 14, 15N, 27Al(12C,X), 27Al, 40Ca(16O,X), 27Al, 20Ne(20Ne, X), 40Ca(40Ca,X), Enot given; compiled σ(fusion) data analyses; deduced critical radius, potential corelation.
83Go14 Generation of Photoneutrons by Means of a Channeled Electron Beam
V. M. Golovkov, V. N. Zabaev, B. N. Kalinin, A. A. Kurkov, V. I. Lunev, Yu. N. Adishchev, A. P. Potylitsin, S. A. Vorobiev, Nucl.Instrum. Methods 212, 167 (1983).
Nuclear Reactions: 1, 2H, Be, Bi(γ,n), E < 80 MeV; measured photoneutron yields. Channeled electron beam, transmissionthrough oriented diamond target.
83Go15 Investigation of the Level Scheme of 145Nd in the (n,n’γ) Reaction
L. I. Govor, A. M. Demidov, M. A. Al-Amili, T. J. Al-Janabi, V. D. Avchukhov, K. A. Baskova, A. B. Vovk, Nucl. Phys. A406,456 (1983).
Nuclear Reactions: 145Nd(n,n’γ), E=reactor; measured Eγ, Iγ(θ). 145Nd deduced levels, J, level populations, γ-branching, γ-multipolarities. Enriched target.
83Go16 Correlation between Calculated Properties of 16O and 2H
A. M. Gorbatov, Yu. N. Krylov, B. V. Rudyak, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 914 (1983)
Nuclear Structure: 16O; calculated binding energy per nucleon, rms radius vs deuteron D-state probability. Different values ofdeuteron quadrupole moment.
83Go17 Proton Diffraction Scattering by 6Li Nuclei and Their Cluster Structure
V. V. Goryachy, V. V. Peresypkin, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 1013 (1983)
Nuclear Reactions: 6Li(p,p), E=0.6, 1.04 GeV; 6Li(p,p’), E=0.6 GeV; calculated σ(θ). 6Li deduced α-d cluster characteristics.Sitenko-Glauber model amplitudes.
83Go18 Angular Correlation Functions - A New Tool to Determine Optical Potentials
M. S. Golovkov, V. Z. Goldberg, A. D. Sidorenko, V. A. Timofeev, R. Volsky, A. Kobos, J. Schmider, Yad. Fiz. 38, 284 (1983).
Nuclear Reactions: 12C(6Li,dα), E=22.7 MeV; analyzed dα(θ); deduced optical model parameters, deuteron-excited nucleusinteraction. DWBA analysis, recoil, finite interaction radius effects.
83Go19 The K-Shell Ionisation of 64Gd and 74W by Low-Energy Protons
M. Goclowski, M. Jaskola, J. Szerypo, P. Hornshoj, Z. Zelazny, J. Phys. (London) B16, 3571 (1983).
Nuclear Reactions: Gd(p,X), (p,γ), E=0.8-2.8 MeV; W(p,X), (p,γ), E=1.1-7. 7 MeV; measured K-shell ionization σ, Eγ, Iγ, E(K X-ray), I(K X-ray).
83Go20 Fission of Oriented Nuclei 233U and 235U Induced by Neutrons with Energies 10-200 keV
N. N. Gonin, L. K. Kozlovsky, V. S. Masterov, N. S. Rabotnov, D. I. Tambovtsev, Yu. Ya. Stavissky, Yad. Fiz. 38, 557 (1983).
Nuclear Reactions: 233, 235U(n,F), E=10-200 keV; measured fission σ(E) ratio, anisotropy vs E; deduced target alignmenteffects. 234, 236U resonances deduced (2gΓnΓF/Γ), partial K conservation. Oriented targets.
83Go21 Proton-Induced Direct Capture on 21Ne and 22Ne
J. Gorres, H. W. Becker, L. Buchmann, C. Rolfs, P. Schmalbrock, H. P. Trautvetter, A. Vlieks, J. W. Hammer, T. R. Donoghue,Nucl. Phys. A408, 372 (1983).
Nuclear Reactions: ICPND 22Ne(p,p), E=0.6-1.6 MeV; measured σ(θ=1450)/ σ(Rutherford) vs E. 21, 22Ne(p,γ), E=0.3-1.6 MeV;measured Eγ, Iγ, σ(E,θγ); deduced direct capture σ, astrophysical reaction rates. 22Na resonances deduced γ transition strength.23Na levels deduced spectroscopic factors, γ transition strength. Extended quasipoint jet gas targets, Ge(Li) detectors.
83Go22 Measurements of Fragment Mass, Charge and Kinetic Energy Distributions in Thermal Neutron Fission of 235U with a Back-to-Back ∆E-E Detector System
R. Govil, S. S. Kapoor, D. M. Nadkarni, S. R. S. Murthy, P. N. Rama Rao, Nucl. Phys. A410, 458 (1983).
Nuclear Reactions: 235U(n,F), E=thermal; measured fission fragment mass, charge, kinetic energy distributions, correlations.
83Go23 A Study of the Dependence of Coulomb-Energy Shifts on the Symmetry Energy of Density-Dependent Effective Interactions
J. M. G. Gomez, J. Martorell, Nucl. Phys. A410, 475 (1983).
Nuclear Reactions: 208Pb(γ,X), E not given; calculated photoabsorption σ. Hartree-Fock theory, density-dependent effectiveinteractions.
Nuclear Structure: 16O, 40, 48Ca, 90Zr, 208Pb; calculated binding energies, proton, neutron rms radii. 48Ca, 124Sn, 208Pb; calcu-lated proton densities. 40Ca, 208Pb; calculated neutron densities. 208Pb; calculated single particle spectra. 106, 108, 110, 112, 114,116, 118, 120, 122, 124, 126, 128Sn; calculated binding energies per nucleon. 17, 15O, 15N, 17F, 39, 41Ca, 39K, 41Sc; calculated Coulombenergy shifts. 15N, 17O, 39K, 41, 48Ca, 90Zr, 208Pb; calculated direct Coulomb shifts. Hartree-Fock theory, density-dependenteffective interactions.
83Go24 Elastic Coherent and Noncoherent d6Li Scattering at Intermediate Energies
V. V. Goryachy, V. V. Peresypkin, Yad. Fiz. 38, 895 (1983).
Nuclear Reactions: 6Li(d,d), (d,d’), E=698, 2000 MeV; analyzed σ(θ); deduced nucleon-nucleon interaction parameter, targetwave function dependences. Glauber-Sitenkov theory.
83Go25 Three-Dimensional Nuclear Dynamics in the Quantized ATDHF Approach
K. Goeke, F. Grummer, P. -G. Reinhard, Ann. Phys. (New York) 150, 504 (1983).
Nuclear Reactions: 4He(α,α), 12C(12C,12C), 16O(16O,16O), E(cm) 1-9 MeV; calculated collective mass, potential vs ion-ion dis-tance, subbarrier fusion σ(E), astrophysical S-factor vs E. Adiabatic TDHF theory.
83Go26 Light Particle Emission in the Reactions of 16O with Ti
P. L. Gonthier, H. Ho, M. N. Namboodiri, J. B. Natowitz, L. Adler, S. Simon, K. Hagel, S. Kniffen, A. Khodai, Nucl. Phys.A411, 289 (1983).
Nuclear Reactions: Ti(16O,X), E=227, 310 MeV; measured σ(fragment E), σ(fragment θ), (particle)(particle)(θ), energy correla-tions; deduced light particle emission mechanism. Statistical, sequential decay models.
83Go27 Features of α-Particle Elastic Scattering by Even-Even and Odd Nuclei
V. G. Gonchar, V. V. Tokarevsky, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 2156 (1983)
Nuclear Reactions: 10B(α,α), E=24 MeV; 12, 13C, 14N(α,α), E=26.6 MeV; 27Al(α, α), E=27.5 MeV; 28, 29Si, 31P, 32S, 59Co, 63,65Cu, 45Sc, 46, 47, 49, 50Ti, 51V(α, α), E=27.2 MeV; calculated σ(θ); deduced spin-orbit potential effects.
83Go28 Excitation and Decay of Dipole Resonance in 10B Nucleus
A. N. Goltsov, N. G. Goncharova, Yad. Fiz. 38, 1410 (1983).
Nuclear Reactions: 10B(γ,n), E=12-28 MeV; calculated σ(E), dipole resonance decay. 9Be, 9B levels deduced partial photodisin-tegration population probability.
83Go29 Charged-Particle Emission upon the Absorption of π- Mesons in Silicon
M. G. Gornov, Yu. B. Gurov, V. P. Koptev, S. P. Kruglov, A. S. Lukin, M. M. Makarov, P. V. Morokhov, K. O. Oganesyan, B. P.Osipenko, V. A. Pechkurov, A. P. Pichugin, V. I. Savelev, F. M. Sergeev, A. A. Khomutov, R. R. Shafigullin, Pisma Zh. Eksp.Teor. Fiz. 37, 552 (1983); JETP Lett. (USSR) 37, 661 (1983).
Nuclear Reactions: 28Si(π-,pX), (π-,dX), (π-, 3HeX), (π-,αX), E at rest; measured particle spectra; deduced reaction mechanism,absorption at intranuclear pp pair.
83GoZP Nuclear g-Factors and the Structure of Isomeric States in the Isotopes 186, 188Os and 196, 198Hg
B. I. Gorbachev, A. I. Levon, O. F. Nemets, O. B. Sevastyuk, Program and Theses, Proc. 33rd Ann. Conf. Nucl. Spectrosc.Struct. At. Nuclei, Moscow, p. 147 (1983).
Nuclear Reactions: 184, 186W, 194, 196Pt(α, 2nγ), E not given; measured γ(θ,H,t). 186, 188Os, 196, 198Hg levels deduced T1/2, g,configurations.
83GoZQ Level Scheme of 136Ba
L. I. Govor, Yu. K. Cherepantsev, Program and Theses, Proc. 33rd Ann. Conf. Nucl. Spectrosc. Struct. At. Nuclei, Moscow, p.96 (1983).
Nuclear Reactions: 136Ba(n,n’γ), E=fast; measured σ(Eγ, θ). 136Ba deduced levels, J, π.
83GoZR
Conference proceedings: Moscow, P246,Gopych
Radioactivity: 116mIn(β-) [from 115In(n,γ)]; measured T1/2; deduced no deviation from exponential law of decay.
83GoZS
Report: ORNL-6004, P114,Gomez del Campo
Nuclear Reactions: Ge(16O,16O), (16O,X), E=120 MeV; measured blocking patterns; deduced evaporation residue blockingangular distributions. Statistical model.
83GoZT
Journal: BAPSA 28 984, CD10,Goswami
Nuclear Reactions: 238U, 232Th(n,n), E=200-920 keV; measured σ(E), σ(θ).
83GoZU
Journal: BAPSA 28 965, AB5,Gossett
Nuclear Reactions: 14N(polarized d,γ), E not given; measured σ(θ), analyzing power. 16O deduced intermediate structure inGDR. Other data input.
83GoZV
Report: KVI 1982 Ann, P49,Goldhoorn
Nuclear Reactions: 58Ni(14N,αX), E=148 MeV; measured (fragment)(α)(θ); deduced (fragment)-α relative energy.
83GoZW
Report: KVI 1982 Ann, P48,Goldhoorn
Nuclear Reactions: 28Si(12C,αX), E=120 MeV; 28Si(16O, αX), (16O,α12C), E=168 MeV; measured (fragment)(α)-coin, α(12C)-energy correlation.
83GoZX
Report: RIKEN-82, P51,Gono
Nuclear Reactions: 209Bi(12C,4n), E=80 MeV; 205Tl(13C, 3n), E=65 MeV; measured Eγ, Iγ, γ(θ), Eα, Iα, αγ-, γγ-coin. 217Ac, 215Frdeduced levels, J, π, T1/2, α-reduced widths.
83GoZY Quantized ATDHF and Subbarrier Fusion
K. Goeke, F. Grummer, P. -G. Reinhard, JUL-Spez-202, p. 90 (1983).
Nuclear Reactions: ICPND 16O(16O,X), E(cm)=2-10 MeV; calculated fusion σ, astrophysical S-factor vs E. Quantized adiabaticTDHF theory.
83GoZZ
Journal: BAPSA 28 649, AF10,Goswami
Nuclear Reactions: 232Th, 238U(n,n), (n,n’), E=240-900 keV; measured σ(E).
83Gr01 The Lifetime and g-Factor of the 8+ State in 96Pd
H. Grawe, H. Haas, Phys. Lett. 120B, 63 (1983).
Nuclear Reactions: 64Zn(36Ar,2n2p), (36Ar,xnypzα), E=127 MeV; measured γ(θ,H,t), γ(t). 93Ru deduced isomer T1/2, possible J,
π. 96Pd deduced levels, J, π, g, T1/2, B(E2), configuration. Recoil implantation.
83Gr02 Identification of a New Isotope, 165Tb
R. C. Greenwood, R. J. Gehrke, J. D. Baker, D. H. Meikrantz, C. W. Reich, Phys. Rev. C27, 1266 (1983).
Radioactivity: 165Tb(β-) [from 252Cf(SF)]; measured Eγ, Iγ, T1/2; deduced log ft. 165Dy deduced levels, J, π. Radiochemicalseparation, Ge(Li) detectors.
83Gr03 Evidence for the Existence of a Low-Mass Pseudoscalar Meson
L. H. Greenberg, D. Y. Kim, S. I. H. Naqvi, R. E. Pywell, Lett. Nuovo Cim. 36, 221 (1983).
Nuclear Reactions: 24Mg(e,e’), E=11.5 MeV; measured phion production σ. Activation technique.
83Gr04 Determination of Hyperfine Interaction Parameters from Poorly Resolved Mossbauer Spectra with the Transmission Integral
D. Gryffroy, R. E. Vandenberghe, Nucl. Instrum. Methods 207, 455 (1983).
Nuclear Reactions: 61Ni(γ,γ), E=67.4 keV; 121Sb(γ, γ), E=37.15 keV; measured Mossbauer spectra; deduced hyperfine interac-tion parameters.
83Gr05 Investigation of the Three-Nucleon System by pd Elastic Scattering with Polarized Protons and Deuterons
W. Gruebler, V. Konig, P. A. Schmelzbach, F. Sperisen, B. Jenny, R. E. White, F. Seiler, H. W. Roser, Nucl. Phys. A398, 445(1983).
Nuclear Reactions: 2H(polarized p,p), E=8.5, 10, 12, 14, 16.5, 19, 22.7 MeV; measured σ(θ,E), A(θ,E); 1H(polarized d,d), E=17,20, 24, 28, 33, 45.4 MeV; measured vector, tensor analyzing power vs θ, E.
83Gr06 Moments of Charge Distributions in the Reaction 92Mo + 92Mo at 14.7 MeV/u
S. Gralla, Dai Guang-xi, A. Gobbi, K. D. Hildenbrand, W. F. J. Muller, A. Olmi, M. Petrovici, H. Stelzer, J. Toke, H. J. Wol-lersheim, R. Bock, U. Lynen, Z. Phys. A310, 345 (1983).
Nuclear Reactions: 92Mo(92Mo,X), E=14.7 MeV/nucleon; measured σ(fragment Z) vs total kinetic energy, primary charge first,second moments.
83Gr07 Diffractive Angular Distribution for 16O(π+, π-)16Ne(g.s.)
S. J. Greene, W. B. Cottingame, G. R. Burleson, L. C. Bland, R. Gilman, H. T. Fortune, C. L. Morris, D. B. Holtkamp, C. F.Moore, Phys. Rev. C27, 2375 (1983).
Nuclear Reactions: 16O(π+,π-), E=164 MeV; measured σ(θ). 16Ne deduced nonanalog transition characteristics. Eikonal fit.
83Gr08 Radio-Frequency and Laser Spectroscopy Studies of Low-Lying States in Sr I
P. Grundevik, M. Gustavsson, I. Lindgren, G. Olsson, T. Olsson, A. Rosen, Z. Phys. A311, 143 (1983).
Nuclear Moments: +87m}Sr; measured hfs; deduced magnetic dipole, electric quadrupole interactions, isotope shifts.
83Gr09 Low-Energy n-p Capture as a Probe of Two-Nucleon Dynamics
J. M. Greben, R. M. Woloshyn, J. Phys. (London) G9, 643 (1983).
Nuclear Reactions: 1H(n,γ), E=200 MeV; calculated σ(θ). 1H(polarized n,γ), E=160, 200, 240 MeV; calculated neutron analyzingpower, γ linear polarization vs θ. 1H(n,γ), E=120-240 MeV; calculated σ(E). 2H(e,e), E not given; calculated electric form factor.Nonrelativistic potentials, transformed, untransformed Reid soft-core deuteron wave functions.
83Gr10 Elastic and Inelastic Scattering of 120 MeV 18O from 208Pb and the Spin Alignment of the 2+ State of 18O
E. E. Gross, J. R. Beene, K. A. Erb, M. P. Fewell, D. Shapira, M. J. Rhoades-Brown, G. R. Satchler, C. E. Thorn, Nucl. Phys.A401, 362 (1983).
Nuclear Reactions: 208Pb(18O,18O), (18O,18O’), E=120 MeV; measured σ(E(18O),θ), Doppler broadened line shapes. 18Odeduced substate population, excited state hexadecapole moment. Enriched target. Coupled-channels analysis.
83Gr11 Atomic Antiproton States in 16O, 18O, 32S, 40Ca, 44Ca, and 122Sn
A. Green, W. Stepien-Rudzka, S. Wycech, Nucl. Phys. A399, 307 (1983).
Atomic Physics: +16}, 18O, 32S, 40, 44Ca, 122Sn; calculated antiprotonic atomic state level shifts, widths. Nucleon-antinucleonbased optical potential.
83Gr12 Spectral Distribution Calculations of the Level Density and Spin-Cutoff Parameters of 28Si
S. M. Grimes, S. D. Bloom, H. K. Vonach, R. F. Hausman, Jr., Phys. Rev. C27, 2893 (1983).
Nuclear Structure: 28Si; calculated level density, spin cutoff parameter. Spectral distribution method.
83Gr13 Double Beta Decay of 128Te/130Te and the Question of a Neutrino Majorana Mass
K. Grotz, H. V. Klapdor, J. Metzinger, J. Phys. (London) G9, L169 (1983).
Radioactivity: 128, 130Te(β-β-); calculated double β-decay T1/2, ratios; deduced parameter dependence. BCS pairing model, parti-
cle number projection, 128Te-128I decay input.
83Gr14 Scattering of Protons of 48.5 MeV Protons by Carbon and Deuterium
V. I. Grantsev, V. I. Konfederatenko, V. A. Kornilov, O. F. Nemets, R. G. Ofengenden, B. A. Rudenko, M. V. Sokolov, B. G.Struzhko, Ukr. Fiz. Zh. 28, 506 (1983).
Nuclear Reactions: 1, 2H, 12C(p,p), E=48.5 MeV; measured σ(θ); deduced singlet, triplet scattering lengths. Faddeev formalism,separable potentials, charge-dependent forces.
83Gr15 Hyperfine-Structure and Isotope-Shift Measurements in the 6s5d → 6p5d, 6p5d → 6s5d Transitions of Ba I in the Far-RedSpectral Region
P. Grundevik, M. Gustavsson, G. Olsson, T. Olsson, Z. Phys. A312, 1 (1983).
Nuclear Moments: +135}, 137Ba; measured optical hfs, isotope shift; deduced magnetic dipole interaction constants. Atomicbeam, high resolution laser spectroscopy.
83Gr16 The Gamow-Teller Strength Distribution in 208Bi - A Probe of the Charge Distribution in 208Pb ( Question )
K. Grotz, H. V. Klapdor, J. Metzinger, R. Madey, W. Pairsuwan, B. D. Anderson, A. R. Baldwin, B. Flanders, C. Lebo, J. W.Watson, C. C. Foster, Phys. Lett. 126B, 417 (1983).
Nuclear Structure: 208Bi; calculated Gamow-Teller transition strength distribution. Two-quasiparticle formalism, comparison with(p,n) data.
Nuclear Reactions: 208Pb(p,n), E=134.4 MeV; measured σ(θ). 208Pb deduced ground state correlation effects, single particleorbit occupation probabilities. Comparison with Gamow-Teller strength calculations.
83Gr17 213At Fission Asymmetry
Ye. N. Gruzintsev, M. G. Itkis, V. N. Okolovich, A. Ya. Rusanov, V. N. Tolstikov, G. N. Smirenkin, Phys. Lett. 126B, 428(1983).
Nuclear Reactions: ICPND 209Bi(α,F), E=34.7-50 MeV; measured fission fragment yield vs mass, energy. 213At deduced smallasymmetric fission contribution.
83Gr18 Elastic Scattering of Heavy Ions and the Compressibility of Nuclear Matter
K. A. Gridnev, E. F. Hefter, K. Mikulas, V. M. Semjonov, V. B. Subbotin, Aust. J. Phys. 36, 155 (1983).
Nuclear Reactions: 16O(9Be,9Be), E=27 MeV; calculated σ(θ); deduced nuclear compressibility modulus. Nonlinear Schrodingerequation.
83Gr19 Cluster Jets as a Possible α Emission Mechanism in Intermediate Energy Heavy Ion Collisions
C. Gregoire, B. Remaud, Phys. Lett. 127B, 308 (1983).
Nuclear Reactions: 164Dy(40Ar,α), E=1600 MeV; calculated σ(Eα); deduced reaction mechanism. Semi-classical α-clusteringmodel.
83Gr20 Optical Model Analysis of Intermediate Energy p - 4He Scattering
J. M. Greben, R. Gourishankar, Nucl. Phys. A405, 445 (1983).
Nuclear Reactions: 4He(polarized p,p), E=500 MeV; analyzed σ(θ), analyzing power, R-parameter data; deduced optical poten-tial characteristics.
83Gr21 Large-Angle Proton Emission in the 9Be(p,2p) Reaction at 300 MeV
R. E. L. Green, D. H. Boal, R. L. Helmer, K. P. Jackson, R. G. Korteling, Nucl. Phys. A405, 463 (1983).
Nuclear Reactions: Be(p,pX), (p,2pX), E=300 MeV; measured σ(E(p),θ(p)), σ(E1,θ1,E2,θ2=900), pp-coin. Comparison withphase-space, direct knockout calculations.
83Gr22 On the Use of Isomer Ratios in 44Sc for Predicting Spin Populations in High Energy Heavy-Ion Nuclear Reactions
H. Groening, K. J. Moody, G. T. Seaborg, Nucl. Instrum. Methods 214, 317 (1983).
Nuclear Reactions: ICPND 29Si(18O,2np), E=30-100 MeV; 41K(α, n), E=8-32 MeV; analyzed isomeric ratio σ(E). 44Sc deducedaverage spin population.
83Gr23 Measurements of the Cross Section of the 237Np(n, 2n) Reaction at Neutron Energies of 14.8 MeV
E. A. Gromova, S. S. Kovalenko, Yu. A. Nemilov, L. D. Preobrazhenskaya, Yu. A. Selitsky, B. I. Tarler, Yu. N. Trofimov, V. B.Funshtein, S. V. Khlebnikov, At. Energ. 54, 108 (1983); Sov. At. Energy 54, 108 (1983).
Nuclear Reactions: 237Np(n,2n), E=14.8 MeV; measured Eγ, Iγ, Eα, Iα; deduced σ.
83Gr24 Short Range Correlations in Light Nuclei
B. E. Grinyuk, I. V. Simenog, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 936 (1983)
Nuclear Structure: 3H, 4He; calculated levels, rms radii, form factors.
83Gr25 Standardization by the Efficiency-Extrapolation Method
L. Grigorescu, Int. J. Appl. Radiat. Isotop. 34, 1151 (1983).
Radioactivity: 133Ba(EC), 134Cs(EC), (β-); analyzed source standardization techniques; deduced linearity condition fulfillment sys-tematic error quantity (g).
83Gr26 Remarkable Long-Range-Systematics in the Binding Energies of α-Nuclei
D. H. E. Gross, M. C. Nemes, Phys. Lett. 130B, 131 (1983).
Nuclear Structure: A=4-72; calculated two-nucleon separation energy; deduced evidence for α-structure.
83Gr27 The Quenching of Low-Energetic Nuclear Gamow-Teller Strength by ∆-Excitations
K. Grotz, H. V. Klapdor, J. Metzinger, Phys. Lett. 132B, 22 (1983).
Nuclear Structure: 208Pb; calculated Gamow-Teller states, transition strength distribution following β-decay. 90Zr; calculatedGamow-Teller states, transition strength distribution following β+-, β--decay; deduced isobar-nucleon hole mixing effect role.
83Gr28 Resolution of a Coulomb Reorientation Ambiguity in 18O
E. E. Gross, M. P. Fewell, Nucl. Phys. A411, 329 (1983).
Nuclear Reactions: 208Pb(18O,18O), (18O,18O’), E=120 MeV; analyzed σ(θ). 18O level deduced quadrupole moment, resolvedCoulomb excitation ambiguities.
83Gr29 Medium-Energy Spallation Cross Sections. 2. Mo Irradiation with 800-MeV Protons
P. M. Grant, B. R. Erdal, H. A. O’Brien, Jr., Int. J. Appl. Radiat. Isotop. 34, 1631 (1983).
Nuclear Reactions: Mo(p,X)96Tc/95Tc/95mTc/92Nb/ 92mNb/91Nb/91mNb/89Zr/88Zr/ 87Y/85Sr/82Sr/86Rb/84Rb/83Rb/77Br/75Se/74As/71As/ 65Zn/58Co/57Co/56Co/59Fe/ 52Mn/51Cr/48V/46Sc, E=800 MeV; measured residuals cumulative, indepen-dent yields, production σ. Stacked foil activation technique.
83Gr30 Angular Distribution of γ-Radiation from the (n, n’γ) Reaction on 170Er and 180Hf
E. P. Grigorev, V. A. Bondarenko, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 2261 (1983)
Nuclear Reactions: 170Er, 180Hf(n,n’γ), E=reactor; measured Eγ, Iγ, γ(θ). 170Er, 180Hf deduced levels, J, π.
83Gr31 Change of the Conversion Rate for the E3-Isomer 235mU (76.8 eV; (1/2)- → (7/2)-) at Variation of Configurations of the ValenceBand of the Atomic Shell
D. P. Grechukhin, A. A. Soldatov, Yad. Fiz. 38, 1397 (1983).
Radioactivity: 235mU(IT); calculated E3 isomer conversion rate vs atomic shell valence band configuration variation.
83Gr32 Determination of the Isotopic Components of the Multiple Amplitudes of the γp → πN Process in 300-420-MeV Energy Rangemaking Use of only Photoproduction Data
V. F. Grushin, E. M. Leikin, A. Ya. Rotvain, A. A. Shikanyan, Yad. Fiz. 38, 1448 (1983).
Nuclear Reactions: 1H(γ,π+), (γ,π0), E=300-420 MeV; analyzed photoproduction data; deduced s-, p-wave amplitudes. Multipoleanalysis.
83Gr33 g-Factors of High-Spin States in 93Ru and 95Rh
H. Grawe, H. H. Bertschat, H. Haas, Hyperfine Interactions 15/16, 65 (1983).
Nuclear Reactions: 64Zn(36Ar,n2pα), (36Ar,pα), E=127 MeV; measured γ(θ,H) in Ag, Pd. 93Ru, 95Rh levels deduced T1/2, g.
83GrZP
Conference proceedings: Moscow, P125,Grigorev
Radioactivity: 160mHo(EC), (β+); analyzed Eγ, Iγ. 160Dy deduced levels, configurations.
83GrZQ
Conference proceedings: Moscow, P93,Gromov
Radioactivity: 134Ce(EC); measured γ-, ce-spectra. 134La levels deduced J, π, γ-multipolarity. β-spectrograph.
83GrZR
Conference proceedings: Moscow, P92,Gromov
Radioactivity: 132Ce(EC) [from Gd(p,X), E=660 MeV]; measured γ-spectra, I(ce). 132La levels deduced J, π, γ-multipolarity. β-spectrograph.
83GrZS
Report: ORNL-6004, P181,Grimm
Radioactivity: 187, 185Hg(EC), (β+), (α); measured γγ(t), γ(ce)(t). 187, 185Au deduced γ transitions, γ-multipolarity, ICC.
83GrZT
Report: KVI 1982 Ann, P16,Grasdijk
Nuclear Reactions: 26Mg(3He,t), E=73 MeV; measured σ(Et), tp-coin. 26Al levels deduced T, Gamow-Teller transition strength.40Ca(3He,t), E=82 MeV; measured σ(Et), σ(θ), pt-coin. 40Sc deduced GDR analog.
83GrZU
Report: ITEP-115, Grach
Nuclear Reactions: 1H(polarized n,γ), E=thermal; calculated γ CP; deduced M1, E2 contributions. Quark compound bag model.
83GrZV
Report: JUL-Spez-202, P75,Grummer
Nuclear Structure: 164Er; calculated levels, yrast, yrare bands, backbending plots. HFB, angular momentum projected two-quasiparticle model.
83GrZW
Report: JUL-Spez-202, P74,Grummer
Nuclear Structure: 22Ne; calculated levels. 46Ti; calculated levels, γ-branching, B(E2). Two-quasiparticle configurations built onHFB ground state.
83GrZX
Report: JUL-Spez-202, P11,Grabmayr
Nuclear Reactions: 209Bi(d,3He), E=45 MeV; measured σ(E(3He)), σ(θ). 208Pb deduced levels, J, π, C2S. DWBA analysis.
83GrZY
Journal: BAPSA 28 736, HH3,Graham
Nuclear Reactions: 58, 60Ni(n,xp), (n,xα), E=8-11 MeV; measured σ(θ), σ(θ,Ep), σ(θ,Eα). Hauser-Feshbach analysis.
83GrZZ
Journal: BAPSA 28 702, EE13,Gross
Nuclear Structure: 18O; analyzed Coulomb excitation data. Three-level coupled-channels analysis.
83Gu01 Charged Particle Decay of the 28Si Giant Electric Dipole Resonance
R. L. Gulbranson, L. S. Cardman, A. Doron, A. Erell, K. R. Lindgren, A. I. Yavin, Phys. Rev. C27, 470 (1983).
Nuclear Reactions: 28Si(γ,p), (γ,α), E=15.6-22.5 MeV; measured σ(partial); deduced total σ(E). 28Si deduced GDR decaycharacteristics. Hauser-Feshbach analysis.
83Gu02 Muonic X-Ray Study of 199Hg and 200Hg
C. Gunther, E. B. Shera, M. V. Hoehn, H. D. Wohlfahrt, R. J. Powers, Y. Tanaka, A. R. Kunselman, Phys. Rev. C27, 816(1983).
Nuclear Reactions: 199, 200Hg(µ-,X), E at rest; measured E X-ray, I X-ray; deduced monopole, quadrupole charge parameters.200Hg deduced muonic resonance, J, π, B(E1).
Nuclear Moments: +199}, 200Hg; measured muonic X-rays; deduced monopole, quadrupole charge parameters. 199Hg levelsdeduced isomer shift, quadrupole moment, B(E2). 200Hg level deduced isomer shift, quadrupole moment.
83Gu03 The Analyzing Power for the 2H(d,n)3He(g.s.) Reaction from 5.5 to 11.5 MeV
P. P. Guss, K. Murphy, R. C. Byrd, C. E. Floyd, S. A. Wender, R. L. Walter, T. B. Clegg, W. Wylie, Nucl. Phys. A395, 1(1983).
Nuclear Reactions: 2H(polarized d,n), E=5.5, 7, 8.5, 10, 11.5 MeV; measured A(θ). Report discrepancies with previous meas-urements. Polynomial expansions analysis.
83Gu04 Giant Resonance Excitation in the 27Al(6Li, 6He)27Si Reaction at 93 MeV
A. Guterman, G. Ciangaru, C. C. Chang, J. D. Silk, D. L. Hendrie, T. J. M. Symons, J. Mahoney, Phys. Rev. C27, 1521(1983).
Nuclear Reactions: 27Al(6Li,6He), E=93 MeV; measured σ(θ), σ(E(6He)). 27Si deduced levels, giant resonance multipolarity.
83Gu05 The (νi213/2)(8+,10+,12+) Triplets in 190-196Hg
M. Guttormsen, A. V. Grumbkow, Y. K. Agarwal, K. P. Blume, K. Hardt, H. Hubel, J. Recht, P. Schuler, H. Kluge, K. H. Maier,A. Maj, N. Roy, Nucl. Phys. A398, 119 (1983).
Nuclear Reactions: 181Ta(14N,5n), E=100 MeV; 192, 194, 196Pt(α,4n), E=50 MeV; measured (ce)(ce)(t). 190, 192, 194, 196Hgdeduced levels, J, π, M1/E2 mixing, γ-multipolarity, B(E2). Superconducting solenoid, Si(Li) detectors.
83Gu06 Level Structure of the N = 88 Isotones 149Pm, 151Eu and 153Tb
R. K. Guchhait, S. Bhattacharya, S. Sen, J. Phys. (London) G9, 631 (1983).
Nuclear Structure: 149Pm, 151Eu, 153Tb; calculated levels, S, B(E2). Pairing, anharmonicity, unified vibrational model.
83Gu07 Study of Inner Bremsstrahlung accompanying Non-Unique Second-Forbidden β Decay in 99Tc
K. S. Gundu Rao, P. Venkataramaiah, K. Gopala, H. Sanjeeviah, J. Phys. (London) G9, 691 (1983).
Radioactivity: 99Tc(β-); measured inner bremsstrahlung spectrum following β-decay.
83Gu08 Cascade-Exciton Model of Nuclear Reactions
K. K. Gudima, S. G. Mashnik, V. D. Toneev, Nucl. Phys. A401, 329 (1983).
Nuclear Reactions: 54Fe(p,p), E=15, 30, 60 MeV; calculated optical potential imaginary part. 54Fe(p,pX), E=29 MeV; 58Ni(p,pX),E=90 MeV; calculated σ(Ep), σ(θ). 54Fe(p,pX), E=29, 39 MeV; 58Ni(p, pX), E=90 MeV; calculated inclusive σ(θ,Ep). 120Sn(p,nX),E=45 MeV; 93Nb(n,nX), E=15 MeV; calculated inclusive σ(θ,En). 54Fe(p, pX), E=60 MeV; 58Ni, 90Zr(p,pX), E=90 MeV;120Sn(p,pX), E=29, 62 MeV; 209Bi(p, pX), E=62, 90 MeV; 197Au(p,pX), E=29 MeV; calculated σ(θ). Cascade exciton model.
83Gu09 Forward (p,n) Reactions and Nucleon-Nucleon Scattering
P. A. M. Guichon, Nucl. Phys. A402, 541 (1983).
Nuclear Reactions: 13C(p,n), E=30-300 MeV; calculated Fermi, Gamow-Teller transition, reaction probability ratio vs E.Nucleon-nucleon phase shift input, T-matrix formalism.
83Gu10 Energy Shifts in Muonic Lithium and Beryllium
M. Guidetti, P. F. Nali, P. Quarati, Nuovo Cim. 75A, 191 (1983).
Atomic Physics: esic-Atoms 6Li, 9Be; calculated polarizability, nuclear size effects on muonic level shifts.
83Gu11 The Radioactive Decay of 46gSc and 44mSc
Guanjun Yuan, Shiping Chen, Benhua Han, Ling Zhou, Peikun Weng, Nucl. Sci. Eng. 84, 320 (1983).
Radioactivity: 44Sc(β+), (EC); measured Eγ, Iγ. 44Ca levels deduced EC-, (β+EC)-branching ratios. Ge(Li) spectrometers.
83Gu12 Rotation Aligned Bands and Configuration Dependent Interaction in 189Hg
M. Guttormsen, K. P. Blume, Y. K. Agarwal, A. v. Grumbkow, K. Hardt, H. Hubel, J. Recht, P. Schuler, Z. Phys. A312, 155(1983).
Nuclear Reactions: 181Ta(14N,6n), E=100 MeV: measured Eγ, Iγ, (ce)(ce)-, γγ-coin, γ(θ). 189Hg deduced levels, J, π. Ge(Li), NaI,Si-Li detectors.
83Gu13 Study of the Multiphonon Bands in 156Gd by the DPPQ Model
J. B. Gupta, Phys. Scr. 28, 21 (1983).
Nuclear Structure: 156Gd; calculated levels, rotational bands, B(E2), B(E2) ratios, reduced E0 transition probability, mixing ratioX(E0/E2). Dynamic pairing plus quadrupole method, multi-phonon bands.
83Gu14 Life Times and Structure of 106Cd Levels
G. M. Gusinsky, V. S. Zvonov, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 862 (1983)
Nuclear Reactions: 96Mo(13C,3n), E=43.7 MeV; measured Eγ, Iγ. 106Cd levels deduced T1/2, B(λ), δ. Interacting boson, general-ized collective model interpretations.
83Gu15 Generalized Optical Potential Interaction between Light Particles and Nuclei in the 1p-Shell
I. S. Gurbanovich, N. S. Zelenskaya, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 978 (1983)
Nuclear Reactions: 7Li(α,α), E=15 MeV; 12C(α,α), E=26.6 MeV; calculated σ(θ). 7Li(α, α), 9Be(p,p), 12C(α,α), E not given; calcu-lated interaction potentials.
83Gu16 Nuclear Structure of 146-154Sm in the Dynamic Pairing-Plus-Quadrupole Model
J. B. Gupta, Phys. Rev. C28, 1829 (1983).
Nuclear Structure: 146, 148, 150, 152, 154Sm; calculated levels, B(E2), potential energy surfaces, g, quadrupole moments, isomershifts. Dynamic pairing plus quadrupole model.
83Gu17 Spin-Flip Versus Non-Spin-Flip Interaction in Forward (p,n) Reactions
P. A. M. Guichon, P. Kroll, Phys. Lett. 132B, 265 (1983).
Nuclear Reactions: 7Li, 13, 14C, 26Mg, 37Cl, 42Ca(p,n), E=60-200 MeV; 2H(p,n), E=212-495 MeV; 1H(n,n), E=40-770 MeV; calcu-lated Gamow-Teller to Fermi transition probability ratio vs E; deduced inconsistensies between values from (p,n), free nucleon-nucleon data.
83Gu18 Determination of the Yield Figures of the Products Resulting from the 242Pu and 241Am Fission by Fast Neutrons with the Aid ofSemiconductor Spectrometry
A. N. Gudkov, V. M. Zhivun, A. V. Zvonarev, A. F. Zolotov, A. B. Koldobsky, Yu. F. Koleganov, V. M. Kolobashkin, S. V.Krivasheev, N. S. Piven, At. Energ. 54, 404 (1983); Sov. At. Energy 54, 414 (1983).
Nuclear Reactions: 242Pu, 241Am(n,F)/85Kr/85mKr/ 88Kr/91Sr/92Sr/92Y/93Y/ 95Zr/97Zr/105Ru/104Tc/105Rh/128Sb/129Sb/130Sb/130mSb/131Te/ 131mTe/134Te/131I/132I/133I/ 134I/135I/135Xe/139Ba/140Ba/ 140La/142La/143Ce/143Nd/149Nd, E=fast; cal-culated residuals yields following fission. Semi-conductor γ-spectroscopy.
83Gu19 Estimate of Proton Channel Coupling in the Optical-Shell Description of Spreading Widths of IAR
V. G. Guba, M. G. Urin, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 2183 (1983)
Nuclear Structure: 207Pb, 140Ce, 138Ba, 90Zr(p, p), E=resonance; calculated IAR spreading width parameter dependence. Protonchannel coupling, Green’s function approach.
83Gu20 Isotopic Distribution of Projectile-Like Fragments in 44 MeV/u 40Ar Induced Reactions
D. Guerreau, V. Borrel, D. Jacquet, J. Galin, B. Gatty, X. Tarrago, Phys. Lett. 131B, 293 (1983).
Nuclear Reactions: 58Ni, 197Au(40Ar,X), E=44 MeV/nucleon; measured fragment charge, mass, energy disotributions, isotopicyields vs fragment mass; deduced reaction mechansim.
83Gu21 Considertion of the Coupling between Proton Channels in the Optical-Shell Description of the Partial Proton Widths of IsobarAnalog Resonances
V. G. Guba, M. G. Urin, Izv. Akad. Nauk SSSR, Ser. Fiz. 47, 1006 (1983); Bull. Acad. Sci. USSR, Phys. Ser. 47, 179 (1983)
Nuclear Reactions: 207, 208Pb, 140Ce, 138Ba, 90Zr(p,p), E resonances; calculated IAR partial widths. Integral equation approach,effective Coulomb field, multi-particle configuration coupling.
83GuZS
Conference proceedings: Moscow, P332,Gurevich
Nuclear Reactions: 12C(α,α’γ), E=25 MeV; measured αγ(θ). 12C levels deduced spin tensor component, magnetic substate align-ments.
83GuZT
Conference proceedings: Moscow, P118,Guseva
Nuclear Structure: 154Eu; calculated wave functions. Nonadiabatic model, Nilsson potential, pairing interaction.
83GuZU
Conference proceedings: Moscow, P310,Guzhovsky
Nuclear Reactions: 117Sn(p,nγ), E=4.49-9 MeV; measured σ(E). 117Sb deduced levels.
83GuZV Life Times of Excited States of 76Br
G. M. Gusinsky, M. F. Kudoyarov, I. Kh. Lemberg, A. S. Mishin, A. A. Pasternak, L. A. Rassadin, Program and These, 33rdAnn. Conf. Nucl. Spectrosc. Struct. Atomic Nuclei, Moscow, p. 66 (1983).
Nuclear Reactions: 65Cu(14N,2np), E=46 MeV; measured Eγ, Iγ, DSA. 76Br levels deduced T1/2.
83GuZW
Report: ORNL-6004, P42,Guidry
Nuclear Reactions: 161Dy(58Ni,59Ni), (58Ni,58Ni), E=270 MeV; measured (particle)(particle)γ-coin, total Eγ, γ-multiplicity; deducedtransfer reaction yrast line dependence. 161Dy deduced transitions. 160Dy deduced high-spin doublet transitions, backbending.
83GuZX
Journal: BAPSA 28 989, DC5,Guenther
Nuclear Reactions: 186W(n,n’γ), E=1-2 MeV; measured γ-spectra. 186W deduced levels. Tof, Ge(Li) detectors.
83GuZY
Journal: BAPSA 28 736, HH4,Guenther
Nuclear Reactions: 54Fe, Cu(n,n), (n,n’), E 1-4 MeV; measured σ(θ), σ. Optical, statistical model analyses.
83GuZZ
Journal: DABBB 43 2606, Guss
Nuclear Reactions: 58, 60Ni, 116, 120Sn(polarized n,n), (polarized n,n’), E=8-17 MeV; measured σ(θ), A(θ); deduced deformationparameters. Optical, coupled-channels model analyses.