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NSR database version of April 29, 2024.

Search: Author = B.A.Harmon

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1995SC30      Phys.Rev. C52, 764 (1995)

J.A.Scarpaci, Y.Chan, D.DiGregorio, B.A.Harmon, J.Pouliot, R.G.Stokstad, J.Suro

Central Collisions in the ¹⁶O + ¹²C Reaction at 32.5 MeV/nucleon

NUCLEAR REACTIONS ¹²C(¹⁶O, X), E=32.5 MeV/nucleon; measured fusion, incomplete fusion fragment velocity, total kinetic energy spectra, yields. Incomplete fusion followed by statistical decay.

doi: 10.1103/PhysRevC.52.764
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1991PO01      Phys.Rev. C43, 735 (1991)

J.Pouliot, Y.Chan, D.E.DiGregorio, B.A.Harmon, R.Knop, C.Moisan, R.Roy, R.G.Stokstad

Excitation and Multiple Dissociation of ¹²C, ¹⁴N, and ¹⁶O Projectiles in Peripheral Collisions at 32.5 MeV/Nucleon

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁶O, X), (¹²C, X), (¹⁴N, X), E=32.5 MeV/nucleon; measured fragment yields; deduced projectile dissociation mechanism.

doi: 10.1103/PhysRevC.43.735
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1990DI10      Phys.Rev. C42, 2108 (1990)

D.E.DiGregorio, K.T.Lesko, B.A.Harmon, E.B.Norman, J.Pouliot, B.Sur, Y.Chan, R.G.Stokstad

Angular Momentum in Sub-Barrier Fusion: Experimental study using the isomer ratio ^137mCe/^137gCe

NUCLEAR REACTIONS, ICPND ¹²⁸Te(¹²C, 3n), ¹³³Cs(⁷Li, 3n), ^137,136Ba(³He, 2n), ¹³⁶Ba(α, 3n), ¹³⁷Ba(³He, 3n), E=2.7-9.5 MeV/nucleon; measured ^137mCe/^137gCe isomer ratio, 3n, 2n reaction σ(E); deduced absolute average angular momentum for fusion. Coupled-channels model, statistical decay model calculations. Activation technique.

doi: 10.1103/PhysRevC.42.2108
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC0082.

1990HA05      Phys.Lett. 235B, 234 (1990)

B.A.Harmon, J.Pouliot, J.A.Lopez, J.Suro, R.Knop, Y.Chan, D.E.Digregorio, R.G.Stokstad

Kinematic Signatures of the Projectile Breakup Process at 32.5 MeV/Nucleon

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁶O, X), E=32.5 MeV/nucleon; measured (particle)(particle)-correlation; deduced projectile breakup mechanism. Lopez-Randrup model.

doi: 10.1016/0370-2693(90)91956-C
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1989PO07      Phys.Lett. 223B, 16 (1989)

J.Pouliot, Y.Chan, A.Dacal, D.E.DiGregorio, B.A.Harmon, R.Knop, M.E.Oritz, E.Plagnol, R.G.Stokstad, C.Moisan, L.Potvin, C.Rioux, R.Roy

Excitation and Multiple Dissociation of ¹⁶O, ¹⁴N and ¹²C Projectiles at 32.5 MeV per Nucleon

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁶O, X), (¹⁴N, X), (¹²C, X), E=32.5 MeV/nucleon; measured fragment angle-integrated spectra.

doi: 10.1016/0370-2693(89)90911-8
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1989PO08      Nucl.Phys. A495, 223c (1989)

J.Pouliot, Y.D.Chan, A.Dacal, D.E.DiGregorio, B.A.Harmon, R.Knop, M.E.Oritz, E.Plagnol, R.G.Stokstad, R.Roy, C.Moisan, L.Potvin, C.Rioux

Multiple Dissociation of ¹⁶O, ¹⁴N and ¹²C at 32.5 MeV/Nucleon

NUCLEAR REACTIONS ¹⁹⁷Au(¹²C, X), (¹⁴N, X), (¹⁶O, X), E=32.5 MeV/nucleon; measured multiple dissociation channel yields; deduced projectile breakup mechanism.

doi: 10.1016/0375-9474(89)90321-7
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1989ST02      Phys.Rev.Lett. 62, 399 (1989)

R.G.Stokstad, D.E.DiGregorio, K.T.Lesko, B.A.Harmon, E.B.Norman, J.Pouliot, Y.D.Chan

Observation of a Constant Average Angular Momentum for Fusion at Sub-Barrier Energies

NUCLEAR REACTIONS, ICPND ¹²⁸Te(¹²C, 3n), E(cm)=34.5-50 MeV; measured σ(E); deduced isomer ratio.

doi: 10.1103/PhysRevLett.62.399
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0462.

1988HA26      Phys.Rev. C38, 572 (1988)

B.A.Harmon, D.Shapira, P.H.Stelson, B.L.Burks, K.A.Erb, B.Shivakumar, K.Teh, S.T.Thornton

Effect of Entrance Channel Asymmetry of Fusion Reactions Leading to Compound Nuclei with A = 40, 42

NUCLEAR REACTIONS ¹²C(²⁸Si, X), E=6.4, 7.8, 9.4 MeV/nucleon; ¹²C(³⁰Si, X), E=5.2, 5.7, 6.4, 7.5, 8.3 MeV/nucleon; measured fusion σ; deduced entrance channel asymmetry role.

doi: 10.1103/PhysRevC.38.572
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1988SH03      Phys.Rev. C37, 652 (1988)

B.Shivakumar, D.Shapira, P.H.Stelson, S.Ayik, B.A.Harmon, K.Teh, D.A.Bromley

²⁸Si + ¹⁴N Orbiting Interaction

NUCLEAR REACTIONS ¹⁴N(²⁸Si, ¹⁴N), E=100 MeV; ¹⁴N(²⁸Si, ¹⁶O), E=140 MeV; ¹⁴N(²⁸Si, ¹²C), E=100-170 MeV; measured ejectile yields. ²⁸Si(¹⁴N, X), E=100-170 MeV; measured orbiting σ(E) for X=^10,11B, ^11,12,13C, ^13,14,15N, ^15,16,17O, ^17,18,19F, ^19,20,21Ne; deduced critical angular momentum.

doi: 10.1103/PhysRevC.37.652
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1987SH06      Phys.Rev. C35, 1730 (1987)

B.Shivakumar, S.Ayik, B.A.Harmon, D.Shapira

Equilibrium Model for Fusion and Orbiting

NUCLEAR REACTIONS, ICPND ²⁸Si(¹²C, X), E(cm)=25-60 MeV; calculated fusion, orbiting σ(E), fragment kinetic energies. Equilibrium model.

doi: 10.1103/PhysRevC.35.1730
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1986HA33      Phys.Rev. C34, 552 (1986)

B.A.Harmon, S.T.Thornton, D.Shapira, J.Gomez del Campo, M.Beckerman

Entrance Channel Limit on the Fusion of ²⁸Si with ¹²C at High Energy

NUCLEAR REACTIONS, ICPND ¹²C(²⁸Si, X), E(cm)=39-54 MeV; measured fusion σ(E). ¹²C(²⁸Si, ³⁶Cl), (²⁸Si, ³³S), (²⁸Si, ³⁰Si), E=180 MeV; measured σ(θ) vs ejectile velocity. ¹²C(²⁸Si, ³²S), E=180 MeV; measured σ(fragment θ, E), σ(θ). ⁴⁰Ca deduced fusion entrance channel limit.

doi: 10.1103/PhysRevC.34.552
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1986SH25      Phys.Rev.Lett. 57, 1211 (1986)

B.Shivakumar, D.Shapira, P.H.Stelson, M.Beckerman, B.A.Harmon, K.Teh, D.A.Bromley

Equilibration in Orbiting Reactions

NUCLEAR REACTIONS ¹⁴N(²⁸Si, ¹⁴N), E=100-170 MeV; measured ejectile yield at θ=15°, absolute orbiting σ(E). ¹⁴N(²⁸Si, ¹²C), (²⁸Si, ¹⁶O), E=100-170 MeV; measured absolute orbiting σ(E); deduced charge, mass equilibration.

doi: 10.1103/PhysRevLett.57.1211
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1985SH30      Nucl.Instrum.Methods Phys.Res. B10/11, 436 (1985)

D.Shapira, J.Gomez del Campo, J.L.C.Ford, Jr., B.Shivakumar, P.H.Stelson, B.A.Harmon, R.L.Parks, S.T.Thornton

Nuclear Physics Experiments with the ORNL-HHIRF Supersonic Gas Jet Target

NUCLEAR REACTIONS ¹⁴N(²⁸Si, X), E=150 MeV; measured fragment spectra; deduced orbiting process products mass, charge distribution features.

doi: 10.1016/0168-583X(85)90285-X
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