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NSR database version of April 26, 2024.

Search: Author = W.E.Meyerhof

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2000CA32      Phys.Rev. C62, 024311 (2000)

T.Carreyre, M.R.Harston, M.Aiche, F.Bourgine, J.F.Chemin, G.Claverie, J.P.Goudour, J.N.Scheurer, F.Attallah, G.Bogaert, J.Kiener, A.Lefebvre, J.Durell, J.P.Grandin, W.E.Meyerhof, W.Phillips

First Direct Proof of Internal Conversion between Bound States

NUCLEAR REACTIONS ²³²Th(¹²⁵Te, ¹²⁵Te'), E=25 MeV/nucleon; measured Eγ, Iγ, X-ray spectra following projectile Coulomb excitation. ¹²⁵Te deduced internal conversion between bound atomic states. Highly ionized atoms.

doi: 10.1103/PhysRevC.62.024311
Citations: PlumX Metrics

1999CH43      Pramana 53, 633 (1999)

J.F.Chemin, T.Carreyre, M.Aiche, F.Attallah, G.Bogaert, J.P.Grandin, M.Harston, W.E.Meyerhof, J.N.Scheurer

A Rare Nuclear Decay Process: The internal aconversion between bound atomic states

doi: 10.1007/s12043-999-0041-8
Citations: PlumX Metrics

1997AT01      Phys.Rev. C55, 1665 (1997)

F.Attallah, M.Aiche, J.F.Chemin, J.N.Scheurer, W.E.Meyerhof, J.R.Grandin, P.Aguer, G.Bogaert, C.Grunberg, J.Kiener, A.Lefebvre, J.P.Thibaud

Ionic Charge Dependence of the Internal Conversion Coefficient and Nuclear Lifetime of the First Excited State in ¹²⁵Te

NUCLEAR REACTIONS ²³²Th(¹²⁵Te, ¹²⁵Te'), E=27 MeV/nucleon; measured Coulomb excited projectile ions distribution. ¹²⁵Te level deduced T_1/2, ICC vs ionic charge state.

doi: 10.1103/PhysRevC.55.1665
Citations: PlumX Metrics

1995AT01      Phys.Rev.Lett. 75, 1715 (1995)

F.Attallah, M.Aiche, J.F.Chemin, J.N.Scheurer, W.E.Meyerhof, J.P.Grandin, P.Aguer, G.Bogaert, J.Kiener, A.Lefebvre, J.P.Thibaud, C.Grunberg

Charge State Blocking of K-Shell Internal Conversion in ¹²⁵Te

NUCLEAR REACTIONS ²³²Th(¹²⁵Te, ¹²⁵Te'), E=27 MeV/nucleon; measured ¹²⁵Te ions spatial spectra. ¹²⁵Te level deduced T_1/2 dependence on charge state, K-shell internal conversion energetic blocking evidence.

doi: 10.1103/PhysRevLett.75.1715
Citations: PlumX Metrics

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
Citations: PlumX Metrics

1991DA17      Phys.Rev. C44, 2584 (1991)

K.Danzmann, W.E.Meyerhof, A.Belkacem, E.C.Montenegro, E.Dillard, H.P.Hulskotter, N.Guardala, D.W.Spooner, B.Kotlinski, D.Cline, A.Kavka, C.W.Beausang, J.Burde, R.J.McDonald, A.O.Macchiavelli, B.S.Rude, J.D.Molitoris

Search for Narrow-Peak Structure in the Three-Photon Spectrum from 6-MeV/Nucleon U + Th, U + U, and Th + Th Collisions

NUCLEAR REACTIONS Th(Th, X), E=5.75 MeV/nucleon; U(U, X), E=5.95 MeV/nucleon; Th(U, X), E=6.05 MeV/nucleon; measured three-photon production σ upper limit.

doi: 10.1103/PhysRevC.44.2584
Citations: PlumX Metrics

1991ME02      J.Radioanal.Nucl.Chem. 153, 391 (1991)

W.E.Meyerhof

Statistical Analysis of a ' Cold Fusion ' Experiment

NUCLEAR REACTIONS ²H(d, d), E=low; analyzed data; deduced cold fusion neutron emission uncertainity.

doi: 10.1007/BF02165892
Citations: PlumX Metrics

1991SP06      Nucl.Instrum.Methods Phys.Res. B56/57, 49 (1991)

D.W.Spooner, J.N.Scheurer, W.E.Meyerhof, A.Belkacem, H.P.Hulskotter

Compound Nucleus X-Ray Production Across a Nuclear Resonance in the p + ¹³⁴Ba Reaction

NUCLEAR REACTIONS ¹³⁴Ba(p, X), E ≈ 9.2-9.45 MeV; measured p(X-ray)-coin spectra, σ(E); deduced K-shell ionization probability, compound nucleus, single atom contribution to X-ray emission. Cooled surface barrier detector, model comparison.

ATOMIC PHYSICS ¹³⁴Ba(p, X), E ≈ 9.2-9.45 MeV; measured p(X-ray)-coin spectra, σ(E); deduced K-shell ionization probability, compound nucleus, single atom contribution to X-ray emission. Cooled surface barrier detector, model comparison.

doi: 10.1016/0168-583X(91)95968-J
Citations: PlumX Metrics

1988BA05      Phys.Rev.Lett. 60, 913 (1988)

O.K.Baker, W.E.Meyerhof, D.W.Spooner, Ch.Stoller, J.N.Scheurer

Nuclear Resonance Effect in Atomic Electron Capture by Protons

ATOMIC PHYSICS ²⁰Ne(p, p), E ≈ 1.5-1.52 MeV; measured electron capture probability vs E; deduced nuclear resonance effect dominance.

doi: 10.1103/PhysRevLett.60.913
Citations: PlumX Metrics

1987BA33      Nucl.Instrum.Methods Phys.Res. B24/25, 89 (1987)

O.K.Baker, C.Stoller, W.E.Meyerhof, J.N.Scheurer

The Interplay between Nuclear and Atomic Physics: Electron capture in the presence of a nuclear resonance

ATOMIC PHYSICS ¹²C, ¹⁴N, ²⁰Ne(p, p), E=0.5-1.525 MeV; ²²Ne(p, p), E=1.5-1.525 MeV; measured total electron capture probabilities in resonance region.

doi: 10.1016/0168-583X(87)90596-9
Citations: PlumX Metrics

1987NE06      Phys.Rev. C36, 143 (1987)

M.Nessi, Ch.Stoller, E.Morenzoni, W.Wolfli, W.E.Meyerhof, J.D.Molitoris, E.Grosse, Ch.Michel

Time Delay Effects on K X-Ray Production Probability in Deep Inelastic U + U and U + Pb Nuclear Reactions

ATOMIC PHYSICS ²⁰⁸Pb, ²³⁸U(²³⁸U, X), E=7.5 MeV/nucleon; measured E(K X-ray), I(K X-ray); deduced time delay, inner shell ionization probability.

doi: 10.1103/PhysRevC.36.143
Citations: PlumX Metrics

1987SP01      Phys.Rev.Lett. 58, 341 (1987)

D.W.Spooner, Ch.Stoller, J.-F.Chemin, W.E.Meyerhof, J.-N.Scheurer, X.-Y.Xu

Large Resonance Effect in K-Shell Ionization Probability in Elastic Proton Backscattering on ¹³⁸Ba

NUCLEAR REACTIONS ¹³⁸Ba(p, p), E=9.8-10.2 MeV; measured σ(θ), K-shell ionization probability vs E; deduced atomic parameters. ¹³⁹La deduced IAR, Γ, Γp.

doi: 10.1103/PhysRevLett.58.341
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1986ME12      Phys.Rev.Lett. 57, 2139 (1986)

W.E.Meyerhof, J.D.Molitoris, K.Danzmann, D.W.Spooner, F.S.Stephens, R.M.Diamond, E.-M.Beck, A.Schafer, B.Muller

Search for Correlated Narrow-Peak Structure in the Two-Photon Spectrum from 6-MeV/Nucleon U + Th Collisions

NUCLEAR REACTIONS Th(U, xγ), E=6 MeV/nucleon; measured two-photon correlated spectra; deduced two-photon production σ. Ge(Li) pair detectors.

doi: 10.1103/PhysRevLett.57.2139
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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
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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
Citations: PlumX Metrics

1984ST19      Phys.Rev.Lett. 53, 1329 (1984)

Ch.Stoller, M.Nessi, E.Morenzoni, W.Wolfli, W.E.Meyerhof, J.D.Molitoris, E.Grosse, Ch.Michel

Nuclear Reaction Times in the Deep-Inelastic U + U Collision deduced from K-Shell Ionization Proabilities

NUCLEAR REACTIONS U(U, X), E=7.5 MeV/nucleon; measured K-shell ionization probability.

doi: 10.1103/PhysRevLett.53.1329
Citations: PlumX Metrics

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
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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
Citations: PlumX Metrics

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
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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
Citations: PlumX Metrics

1982ME13      Z.Phys. A309, 93 (1982)

W.E.Meyerhof, G.Astner, D.Hofmann, K.O.Groeneveld, J.F.Chemin

K-Ionization Probability across the 460-keV ¹²C(p, p₀) Resonance

ATOMIC PHYSICS ¹²C(p, p), E=400-540 keV; measured pe-coin; deduced K-shell vacancy production probability.

doi: 10.1007/BF01414969
Citations: PlumX Metrics

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
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1980ST23      Z.Phys. A297, 93 (1980)

Ch.Stoller, E.Morenzoni, W.Wolfli, W.E.Meyerhof, F.Folkmann, P.Vincent, P.H.Molker, P.Armbruster

MO X-Ray Angular Distribution from 1 GeV ²⁰⁸Pb+²⁰⁸Pb and ²⁰⁹Bi+²⁰⁹Bi Collisions

NUCLEAR REACTIONS ²⁰⁸Pb(²⁰⁸Pb, X), ²⁰⁹Bi(²⁰⁹Bi, X), E=4.2-4.8 MeV/nucleon; measured molecular orbital X-ray Doppler shift, anisotropy.

doi: 10.1007/BF01421464
Citations: PlumX Metrics

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
Citations: PlumX Metrics

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
Citations: PlumX Metrics

1979MO23      Helv.Phys.Acta 52, 422 (1979)

E.Morenzoni, C.Stoller, W.Wolfli, W.E.Meyerhof, D.L.Clark, F.Folkmann, P.Vincent, P.H.Mokler, P.Armbruster

X-Rays from 1 GeV ²⁰⁸Pb + ²⁰⁸Pb and ²⁰⁹Bi + ²⁰⁹Bi Collisions

NUCLEAR REACTIONS ²⁰⁸Pb, ²⁰⁹Bi(²⁰⁸Pb, X), (²⁰⁹Bi, X), E=4.5-4.8 MeV/nucleon; measured continuum E(X), I(X-ray).

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
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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
Citations: PlumX Metrics

1974TJ01      Phys.Rev.Lett. 33, 593 (1974)

P.O.Tjom, F.S.Stephens, R.M.Diamond, J.de Boer, W.E.Meyerhof

Angular-Momentum Effects on Continuum Gamma Rays Following Heavy-Ion Reactions

NUCLEAR REACTIONS ⁸²Se(⁸⁴Kr, xnγ), E=347 MeV; ¹⁵⁰Sm(¹⁶O, xnγ), E=88 MeV; ¹⁶⁵Ho(p, xnγ), E=25 MeV; measured Eγ, Iγ, γγ-coin; deduced angular momentum effects on continuum γ-rays.

doi: 10.1103/PhysRevLett.33.593
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1974VE01      Nucl.Phys. A219, 157 (1974)

E.Ventura, J.Calarco, C.C.Chang, E.M.Diener, E.Kuhlmann, W.E.Meyerhof

Resonant Structure Observed in the ³He(³He, γ)⁶Be Capture Reaction

NUCLEAR REACTIONS ³He(³He, γ), E=12-27 MeV; measured σ(E, θ). ⁶Be deduced resonances, J, π, L. Results compared with theoretical predictions. Enriched ³He gas target.

doi: 10.1016/0375-9474(74)90089-X
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1071.

1973FI04      Nucl.Phys. A206, 1 (1973)

S.Fiarman, W.E.Meyerhof

Energy Levels of Light Nuclei A = 4

NUCLEAR STRUCTURE ⁴H, ⁴He, ⁴Li; compiled levels, reaction Q-values, J, π, T.

doi: 10.1016/0375-9474(73)90605-2
Citations: PlumX Metrics

1973FI18      Nucl.Phys. A206, 1 (1973)

S.Fiarman, W.E.Meyerhof

Energy Levels of Light Nuclei A = 4

COMPILATION ⁴H, ⁴He, ⁴Li; compiled, evaluated structure data.

doi: 10.1016/0375-9474(73)90605-2
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1973VE09      Phys.Lett. 46B, 364 (1973)

E.Ventura, J.R.Calarco, W.E.Meyerhof, A.M.Young

Direct and Resonant Capture Observed in the ³H(³He, γ)⁶Li Reaction

NUCLEAR REACTIONS ³H(³He, γ), E=0-30 MeV; calculated σ(E;θ).

doi: 10.1016/0370-2693(73)90141-X
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1255.

1972DI05      Nucl.Phys. A184, 449 (1972)

F.S.Dietrich, E.G.Adelberger, W.E.Meyerhof

Study of the ²H(d, n)³He Reaction between 12 and 19 MeV

NUCLEAR REACTIONS ²H(d, n), E=12, 14, 16, 18 MeV; measured σ(θ), σ(En, θ⁰); deduced Legendre coeff.

doi: 10.1016/0375-9474(72)90420-4
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1074.

1972KI01      Nucl.Phys. A178, 337 (1972)

H.T.King, W.E.Meyerhof, R.G.Hirko

The ²H(³He, γ)⁵Li Reaction from 2-26 MeV

NUCLEAR REACTIONS ²H(³He, γ), E=2-26 MeV; measured σ(E, θ). ⁵Li deduced levels. Enriched target.

doi: 10.1016/0375-9474(72)90462-9
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1218.

1971FA09      Nucl.Phys. A169, 540 (1971)

J.Favier, T.Bressani, G.Charpak, L.Massonnet, W.E.Meyerhof, C.Zupancic

The (π⁺, 2p) Reaction in Light Nuclei

NUCLEAR REACTIONS ²H, He, ⁶Li, Li, Be, B, C, N, O, F, Al, S, Cl, Ca, Fe, Pb(π⁺, 2p), E=76 MeV; measured σ(Ep₁+Ep₂, θ(p₁), θ(p₂)); deduced reaction mechanism, structure effects.

doi: 10.1016/0375-9474(71)90702-0
Citations: PlumX Metrics

1971VE10      Nucl.Phys. A173, 1 (1971)

E.Ventura, C.C.Chang, W.E.Meyerhof

The ³H(³He, γ)⁶Li Capture Reaction and the Structure of ⁶Li

NUCLEAR REACTIONS ³H(³He, γ), E=9-26 MeV; measured σ(E, θ). ⁶Li deduced resonances. Results compared with theoretical predictions. Adsorbed ³H target.

doi: 10.1016/0375-9474(71)90744-5
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1081.

1970ME07      Nucl.Phys. A148, 211 (1970)

W.E.Meyerhof, M.Suffert, W.Feldman

³H(p, γ)⁴He Reaction from 3 to 18 MeV

NUCLEAR REACTIONS ³H(p, γ), E=3-18 MeV; measured σ(E;θ); ⁴He(γ, p), E < 30 MeV; deduced E1, E2 cross sections. ⁴He levels deduced singlet strength. Adsorbed ³H target.

doi: 10.1016/0375-9474(70)90619-6
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1069.

1969ME10      Nucl.Phys. A131, 489 (1969)

W.E.Meyerhof, W.Feldman, S.Gilbert, W.O'Connell

²H(d, γ)⁴He Reaction from 6 to 19 MeV

NUCLEAR REACTIONS ²H(d, γ), E=6-19 MeV; measured σ(E;θ); deduced non-resonant cross section. Enriched gas target.

doi: 10.1016/0375-9474(69)90590-9
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA1032.

1968ME03      Nucl.Phys. A109, 1 (1968)

W.E.Meyerhof, T.A.Tombrello

Energy Levels of Light Nuclei A = 4

doi: 10.1016/0375-9474(68)90556-3
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1968WE14      Nucl.Phys. A121, 38 (1968)

C.Werntz, W.E.Meyerhof

⁴He Levels from a Charge-Independent Analysis of ³H(p, n)³He

doi: 10.1016/0375-9474(68)90496-X
Citations: PlumX Metrics

1967FE08      Phys.Letters 25B, 593 (1967)

W.Feldman, D.W.Heikkinen, W.E.Meyerhof

Radiative Capture in the ⁷Li(¹⁶O, γ)²³Na reaction

NUCLEAR STRUCTURE ²³Na, ⁷Li; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0370-2693(67)90124-4
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1966BA37      Phys.Letters 22, 450 (1966)

B.R.Barrett, J.D.Walecka, W.E.Meyerhof

Some Observations Concerning the Supermultiplet of Negative-Parity Excited States in the α Particle

NUCLEAR STRUCTURE ⁴He; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0031-9163(66)91223-6
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1966ME05      Phys.Rev.Letters 16, 1114 (1966)

W.E.Meyerhof

Systematic of Low-Lying 0+ State in Light Nuclei

NUCLEAR STRUCTURE ⁴He, ¹²C, ⁹⁰Zr, ⁴⁰Ca, ¹⁶O; measured not abstracted; deduced nuclear properties.

doi: 10.1103/PhysRevLett.16.1114
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1965SC16      Phys.Letters 18, 327 (1965)

R.Schrack, D.Kohler, N.G.Puttaswamy, W.E.Meyerhof

0°-Yield of Gamma Rays in the T(p, γ)⁴He Reaction

NUCLEAR STRUCTURE ³H, ⁴He; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0031-9163(65)90358-6
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1965TU03      Phys.Rev. 137, B1181 (1965)

A.B.Tucker, J.T.Wells, W.E.Meyerhof

Inelastic Neutron Scattering Near Threshold

NUCLEAR REACTIONS ⁵⁶Fe, ⁶³Cu, ⁹⁰Zr, ¹³⁸Ba, ¹⁴⁰Ce(n, n'γ), E=0-300 keV; measured σ(E, Eγ). ⁵⁶Fe, ⁶³Cu, ⁹⁰Zr, ¹³⁸Ba, ¹⁴⁰Ce deduced levels, J, π.

doi: 10.1103/PhysRev.137.B1181
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset11720.

1964JE03      Nucl.Phys. 58, 417 (1964)

R.C.Jenkins, W.E.Meyerhof

Internal Conversion Coefficients of Ni⁵⁶

RADIOACTIVITY ⁵⁶Ni[from ⁵⁴Fe(α, 2n)]; measured Eγ, Iγ, ce, ICC. Natural target.

doi: 10.1016/0029-5582(64)90551-6
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1963WE06      Phys.Rev. 130, 1961 (1963)

D.O.Wells, S.L.Blatt, W.E.Meyerhof

Decay of Ni-56

NUCLEAR STRUCTURE ⁵⁶Ni; measured not abstracted; deduced nuclear properties.

doi: 10.1103/PhysRev.130.1961
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1963WE20      Phys.Rev. 131, 1644 (1963)

J.T.Wells, A.B.Tucker, W.E.Meyerhof

Threshold Effects In Neutron Elastic Scattering

NUCLEAR REACTIONS Li(n, n), Li(n, x), Fe(n, n), Fe(n, x), Zr(n, n), Ba(n, n), Ba(n, x), Ce(n, n), Ce(n, x), E=300 keV-2.1 MeV; measured products, Li, Fe, Zr, Ba, Ce; deduced σ(θ), σ, σ(E). Data were imported from EXFOR entry 11121.

doi: 10.1103/PhysRev.131.1644
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset11121.

1962BL10      Bull.Am.Phys.Soc. 7, No.9, 624, W8 (1962)

S.L.Blatt, W.E.Meyerhof

Radiative Capture of Protons by B¹¹ and Be⁹

NUCLEAR STRUCTURE ⁹Be, ¹¹Be; measured not abstracted; deduced nuclear properties.

1962MC14      Bull.Am.Phys.Soc. 7, No.9, 605, G6 (1962)

R.E.McDonald, W.E.Meyerhof

Comparison of the β Spectra of B¹² and N¹²

NUCLEAR STRUCTURE ¹²B, ¹²N; measured not abstracted; deduced nuclear properties.

1962TU02      Bull.Am.Phys.Soc. 7, No.9, 624, W10 (1962)

A.B.Tucker, J.T.Wells, W.E.Meyerhof

Inelastic Neutron Scattering from Iron, Zirconium, and Cerium

NUCLEAR STRUCTURE ⁹⁰Zr, Fe, Zr, Ce; measured not abstracted; deduced nuclear properties.

1959HO87      Phys.Rev. 113, 875 (1959)

D.J.Horen, W.E.Meyerhof, J.J.Kraushaar, D.O.Wells, E.Brun, J.E.Neighbor

Decay of As⁷⁴

doi: 10.1103/PhysRev.113.875
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1959ME85      Phys.Rev. 115, 1227 (1959)

W.E.Meyerhof, N.W.Tanner, C.M.Hudson

Radiative capture of protons by Be⁹

NUCLEAR REACTIONS ⁹Be(p, γ), E=262.5 keV-1.2 MeV; measured product s, ¹⁰B, Eγ, Iγ; deduced σ(θ). Data were imported from EXFOR entry F0122.

doi: 10.1103/PhysRev.115.1227
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF0122.

1958HO90      Phys.Rev. 111, 559 (1958)

D.J.Horen, W.E.Meyerhof

Decay of Copper-66

doi: 10.1103/PhysRev.111.559
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1958ME81      Phys.Rev. 111, 1348 (1958)

W.E.Meyerhof, L.F.Chase, Jr.

Levels of Be¹⁰ and B¹⁰

doi: 10.1103/PhysRev.111.1348
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1957BR20      Phys.Rev. 107, 1324 (1957)

E.Brun, W.E.Meyerhof, J.J.Kraushaar, D.J.Horen

Decay of Zinc-62

doi: 10.1103/PhysRev.107.1324
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1956BR88      Phys.Rev. 102, 808 (1956)

E.Brun, J.J.Kraushaar, W.E.Meyerhof

Decay of As⁷²

doi: 10.1103/PhysRev.102.808
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1956KR03      Phys.Rev. 101, 139 (1956)

J.J.Kraushaar, E.Brun, W.E.Meyerhof

Decay Scheme of Gallium-72

doi: 10.1103/PhysRev.101.139
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1955RO05      Phys.Rev. 97, 97 (1955)

H.Roderick, O.Lonsjo, W.E.Meyerhof

Decay Scheme of the Mirror Nucleus P²⁹ and Related Results

doi: 10.1103/PhysRev.97.97
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1953MA01      Phys.Rev. 92, 1481 (1953)

L.G.Mann, W.E.Meyerhof, H.I.West, Jr.

Decay of Ga⁶⁶

doi: 10.1103/PhysRev.92.1481
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1953ME52      Phys.Rev. 92, 758 (1953)

W.E.Meyerhof, L.G.Mann, H.I.West, Jr.

Decay of Gallium⁶⁷

doi: 10.1103/PhysRev.92.758
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1951ME80      Phys.Rev. 82, 5 (1951)

W.E.Meyerhof, D.B.Nicodemus

Neutron Depolarization on Scattering from Carbon, Paraffin, and Phosphorus

NUCLEAR REACTIONS ¹H, ¹²C, ³¹P(n, n), (n, X), E=0.0253 eV; measured products, Eπ, Iπ; deduced polarization data, σ, σ(E). Data were imported from EXFOR entry 13843 and 11044.

doi: 10.1103/PhysRev.82.5
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset11044.

1951RO22      Phys.Rev. 84, 887 (1951)

H.Roderick, W.E.Meyerhof, L.G.Mann

Decay Scheme of Cu⁶⁶

doi: 10.1103/PhysRev.84.887
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1948BO10      Phys.Rev. 73, 1219A (1948)

J.C.Bowe, M.Goldhaber, R.D.Hill, W.E.Meyerhof, O.Sala

Short Lived Metastable State in an Even-Even Nucleus: Ge⁷²

doi: 10.1103/PhysRev.73.1219
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1948ME26      Phys.Rev. 74, 348 (1948)

W.E.Meyerhof, M.Goldhaber

Notes on the β-Ray Spectra from Copper-64

doi: 10.1103/PhysRev.74.348
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1947ME28      Phys.Rev. 72, 273 (1947)

W.E.Meyerhof, G.Scharff-Goldhaber

Decay Scheme of Sb¹²⁴

RADIOACTIVITY ¹²⁴Sb(β^-); measured decay products, Eβ, Iβ, Eγ, Iγ; deduced γ- and β-rays energies, level scheme.

doi: 10.1103/physrev.72.273
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