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NSR database version of April 25, 2024.

Search: Author = T.M.Cormier

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2023AC17      Eur.Phys.J. A 59, 298 (2023)

S.Acharya, D.Adamova, A.Adler, G.Aglieri Rinella, M.Agnello, N.Agrawal, Z.Ahammed, S.Ahmad, S.U.Ahn, I.Ahuja, A.Akindinov, M.Al-Turany, D.Aleksandrov, B.Alessandro, H.M.Alfanda, R.Alfaro Molina, B.Ali, A.Alici, N.Alizadehvandchali, A.Alkin, J.Alme, G.Alocco, T.Alt, I.Altsybeev, M.N.Anaam, C.Andrei, A.Andronic, V.Anguelov, F.Antinori, P.Antonioli, N.Apadula, L.Aphecetche, H.Appelshauser, C.Arata, S.Arcelli, M.Aresti, R.Arnaldi, J.G.M.C.A.Arneiro, I.C.Arsene, M.Arslandok, A.Augustinus, R.Averbeck, M.D.Azmi, A.Badala, J.Bae, Y.W.Baek, X.Bai, R.Bailhache, Y.Bailung, A.Balbino, A.Baldisseri, B.Balis, D.Banerjee, Z.Banoo, R.Barbera, F.Barile, L.Barioglio, M.Barlou, G.G.Barnafoldi, L.S.Barnby, V.Barret, L.Barreto, C.Bartels, K.Barth, E.Bartsch, N.Bastid, S.Basu, G.Batigne, D.Battistini, B.Batyunya, D.Bauri, J.L.Bazo Alba, I.G.Bearden, C.Beattie, P.Becht, D.Behera, I.Belikov, A.D.C.Bell Hechavarria, F.Bellini, R.Bellwied, S.Belokurova, G.Bencedi, S.Beole, A.Bercuci, Y.Berdnikov, A.Berdnikova, L.Bergmann, M.G.Besoiu, L.Betev, P.P.Bhaduri, A.Bhasin, M.A.Bhat, B.Bhattacharjee, L.Bianchi, N.Bianchi, J.Bielcik, J.Bielcikova, J.Biernat, A.P.Bigot, A.Bilandzic, G.Biro, S.Biswas, N.Bize, J.T.Blair, D.Blau, M.B.Blidaru, N.Bluhme, C.Blume, G.Boca, F.Bock, T.Bodova, A.Bogdanov, S.Boi, J.Bok, L.Boldizsar, M.Bombara, P.M.Bond, G.Bonomi, H.Borel, A.Borissov, A.G.Borquez Carcamo, H.Bossi, E.Botta, Y.E.M.Bouziani, L.Bratrud, P.Braun-Munzinger, M.Bregant, M.Broz, G.E.Bruno, M.D.Buckland, D.Budnikov, H.Buesching, S.Bufalino, P.Buhler, Z.Buthelezi, A.Bylinkin, S.A.Bysiak, M.Cai, H.Caines, A.Caliva, E.Calvo Villar, J.M.M.Camacho, P.Camerini, F.D.M.Canedo, M.Carabas, A.A.Carballo, F.Carnesecchi, R.Caron, L.A.D.Carvalho, J.Castillo Castellanos, F.Catalano, C.Ceballos Sanchez, I.Chakaberia, P.Chakraborty, S.Chandra, S.Chapeland, M.Chartier, S.Chattopadhyay, S.Chattopadhyay, T.G.Chavez, T.Cheng, C.Cheshkov, B.Cheynis, V.Chibante Barroso, D.D.Chinellato, E.S.Chizzali, J.Cho, S.Cho, P.Chochula, P.Christakoglou, C.H.Christensen, P.Christiansen, T.Chujo, M.Ciacco, C.Cicalo, F.Cindolo, M.R.Ciupek, G.Clai, F.Colamaria, J.S.Colburn, D.Colella, M.Colocci, G.Conesa Balbastre, Z.Conesa del Valle, G.Contin, J.G.Contreras, M.L.Coquet, T.M.Cormier, P.Cortese, M.R.Cosentino, F.Costa, S.Costanza, C.Cot, J.Crkovska, P.Crochet, R.Cruz-Torres, P.Cui, A.Dainese, M.C.Danisch, A.Danu, P.Das, P.Das, S.Das, A.R.Dash, S.Dash, A.De Caro, G.de Cataldo, J.de Cuveland, A.De Falco, D.De Gruttola, N.De Marco, C.De Martin, S.De Pasquale, R.Deb, S.Deb, K.R.Deja, R.Del Grande, L.Dello Stritto, W.Deng, P.Dhankher, D.Di Bari, A.Di Mauro, B.Diab, R.A.Diaz, T.Dietel, Y.Ding, R.Divia, D.U.Dixit, Ø.Djuvsland, U.Dmitrieva, A.Dobrin, B.Donigus, J.M.Dubinski, A.Dubla, S.Dudi, P.Dupieux, M.Durkac, N.Dzalaiova, T.M.Eder, R.J.Ehlers, F.Eisenhut, D.Elia, B.Erazmus, F.Ercolessi, F.Erhardt, M.R.Ersdal, B.Espagnon, G.Eulisse, D.Evans, S.Evdokimov, L.Fabbietti, M.Faggin, J.Faivre, F.Fan, W.Fan, A.Fantoni, M.Fasel, P.Fecchio, A.Feliciello, G.Feofilov, A.Fernandez Tellez, L.Ferrandi, M.B.Ferrer, A.Ferrero, C.Ferrero, A.Ferretti, V.J.G.Feuillard, V.Filova, D.Finogeev, F.M.Fionda, F.Flor, A.N.Flores, S.Foertsch, I.Fokin, S.Fokin, E.Fragiacomo, E.Frajna, U.Fuchs, N.Funicello, C.Furget, A.Furs, T.Fusayasu, J.J.Gaardhøje, M.Gagliardi, A.M.Gago, C.D.Galvan, D.R.Gangadharan, P.Ganoti, C.Garabatos, J.R.A.Garcia, E.Garcia-Solis, C.Gargiulo, A.Garibli, K.Garner, P.Gasik, A.Gautam, M.B.Gay Ducati, M.Germain, A.Ghimouz, C.Ghosh

Study of the p–p–K⁺and p–p–K^-dynamics using the femtoscopy technique

doi: 10.1140/epja/s10050-023-01139-9
Citations: PlumX Metrics

1997BA16      Phys.Rev. C55, 1420 (1997); Erratum Phys.Rev. C56, 2336 (1997)

J.Barrette, R.Bellwied, S.Bennett, P.Braun-Munzinger, W.C.Chang, W.E.Cleland, M.Clemen, J.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.Drigert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.K.Mark, R.Matheus, S.McCorkle, J.T.Murgatroyd, E.O'Brien, S.Panitkin, T.Piazza, C.Pruneau, M.N.Rao, M.Rosati, N.C.da Silva, S.Sedykh, U.Sonnadara, J.Stachel, E.M.Takagui, S.Voloshin, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Energy and Charged Particle Flow in 10.8A GeV/c Au + Au Collisions

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E=10.8 GeV/c/nucleon; measured azimuthal distributions of transverse energy, charged particle multiplicity, Fourier components, sideward flow, squeeze-out, relativistic collisions; deduced nucleon, pion flow. Experiment E877 at BNL AGS.

doi: 10.1103/PhysRevC.55.1420
Citations: PlumX Metrics

1997BA30      Phys.Rev.Lett. 78, 2916 (1997)

J.Barrette, R.Bellwied, S.Bennett, R.Bersch, P.Braun-Munzinger, W.C.Chang, W.E.Cleland, J.D.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.W.Drigert, S.Gilbert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, C.L.Jiang, S.C.Johnson, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.McCorkle, S.K.Mark, R.Matheus, D.Miskowiec, E.O'Brien, S.Panitkin, T.Piazza, M.Pollack, C.Pruneau, M.N.Rao, M.Rosati, N.C.daSilva, S.Sedykh, U.Sonnadara, J.Stachel, E.M.Takagui, M.Trzaska, S.Voloshin, T.Vongpaseuth, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Two-Pion Correlations in Au + Au Collisions at 10.8 GeV/c per Nucleon

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E at 10.8 GeV/c/nucleon; measured π⁺π±-, π^-π^--, π⁺π^--correlation functions; deduced pions phase space density related features.

doi: 10.1103/PhysRevLett.78.2916
Citations: PlumX Metrics

1996PA17      J.Phys.(London) G22, 1013 (1996)

D.Pantelica, A.Pantelica, F.Negoita, A.V.Ramayya, J.H.Hamilton, L.Chaturvedi, J.Kormicki, B.R.S.Babu, A.Petrovici, K.W.Schmid, A.Faessler, N.R.Johnson, I.Y.Lee, C.Baktash, F.K.McGowan, J.D.Cole, E.F.Zganjar, T.M.Cormier

Structure of Odd-Odd ⁷²As: Experiment and theory

NUCLEAR REACTIONS ⁵⁹Co(¹⁶O, n2p), E=52 MeV; ⁵⁶Fe(¹⁹F, n2p), E=60 MeV; ⁴⁷Ti(²⁸Si, 3p), E=95 MeV; measured γγ-, (particle)γγ-coin, γγ(t), Eγ, Iγ, γ(θ). ⁷²As deduced levels, J, π, B(λ), γ multipolarity. Model comparison.

doi: 10.1088/0954-3899/22/7/007
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1995BA39      Phys.Rev. C51, 3309 (1995)

J.Barrette, R.Bellwied, S.Bennett, P.Braun-Munzinger, W.E.Cleland, M.Clemen, J.D.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.W.Drigert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.K.Mark, S.McCorkle, R.Matheus, J.T.Murgatroyd, E.O'Brien, S.Panitkin, T.Piazza, C.Pruneau, M.N.Rao, M.Rosati, N.C.daSilva, S.Sedykh, U.Sonnadara, J.Stachel, N.Starinsky, E.M.Takagui, S.Voloshin, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, C.Zou, and the E877 Collaboration

Charged-Particle Pseudorapidity Distributions in Au + Al, Cu, Au, and U Collisions at 10.8A GeV/c

NUCLEAR REACTIONS ²⁷Al, Cu, ¹⁹⁷Au, U(¹⁹⁷Au, X), E at 10.8 GeV/c/nucleon; measured charged particle pseudorapidity distributions as a function of centrality; deduced total energy per charged particle as a function of pseudorapidity and centrality. Compared with FRITIOF and RQMD predictions.

doi: 10.1103/PhysRevC.51.3309
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1995MU04      Nucl.Phys. A587, 367 (1995)

J.T.Murgatroyd, S.J.Bennett, N.M.Clarke, B.R.Fulton, G.J.Gyapong, C.D.Jones, D.L.Watson, T.M.Cormier, H.Dejbakhsh, A.Szanto de Toledo, N.Carlin

Termination of the ¹²C-¹²C Cluster States Revealed in the ¹²C)(²⁰Ne, ¹²C¹²C)⁸Be Breakup Reaction

NUCLEAR REACTIONS ¹²C(²⁰Ne, 2¹²C), E=300 MeV; measued (¹²C)(¹²C)-coin. ²⁴Mg deduced energies of breakup states.

doi: 10.1016/0375-9474(95)00003-J
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1994BA48      Phys.Rev. C50, 1077 (1994)

J.Barrette, R.Bellwied, P.Braun-Munzinger, W.E.Cleland, T.M.Cormier, G.David, J.Dee, G.E.Diebold, O.Dietzsch, J.V.Germani, S.Gilbert, S.V.Greene, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, K.Jayananda, D.Kraus, B.S.Kumar, R.Lacasse, D.Lissauer, W.J.Llope, T.W.Ludlam, S.McCorkle, R.Majka, S.K.Mark, J.T.Mitchell, M.Muthuswamy, E.O'Brien, C.Pruneau, F.S.Rotondo, J.Sandweiss, N.C.daSilva, U.Sonnadara, J.Stachel, H.Takai, E.M.Takagui, T.G.Throwe, D.Wolfe, C.L.Woody, N.Xu, Y.Zhang, Z.Zhang, C.Zou, and the E814 Collaboration

Production of Light Nuclei in Relativistic Heavy-Ion Collisions

NUCLEAR REACTIONS Pb, Cu, ²⁷Al(²⁸Si, X), E=14.6 GeV/c/nucleon; measured σ for A ≤ 4 nuclei synthesis; deduced freeze-out related interaction volume size parameters.

doi: 10.1103/PhysRevC.50.1077
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1994BA69      Phys.Rev. C50, 3047 (1994)

J.Barrette, R.Bellwied, P.Braun-Munzinger, W.E.Cleland, T.M.Cormier, G.David, J.Dee, G.E.Diebold, O.Dietzsch, J.V.Germani, S.Gilbert, S.V.Greene, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, K.Jayananda, D.Kraus, B.S.Kumar, R.Lacasse, D.Lissauer, W.J.Llope, T.W.Ludlam, S.McCorkle, R.Majka, S.K.Mark, J.T.Mitchell, M.Muthuswamy, E.O'Brien, C.Pruneau, M.N.Rao, F.Rotondo, N.C.daSilva, U.Sonnadara, J.Stachel, H.Takai, E.M.Takagui, T.G.Throwe, C.Winter, G.Wang, D.Wolfe, C.L.Woody, N.Xu, Y.Zhang, Z.Zhang, C.Zou, and the E814 Collaboration

Centrality Dependence of Longitudinal and Transverse Baryon Distributions in Ultrarelativistic Nuclear Collisions

NUCLEAR REACTIONS ²⁷Al, Pb(S, X), (p, X), (d, X), E at 14.6 GeV/c/nucleon; measured baryon rapidity, transverse momentum distributions; deduced stopping power, rapidity shift, temperature, flow velocities, event shapes.

doi: 10.1103/PhysRevC.50.3047
Citations: PlumX Metrics

1994BA72      Phys.Lett. 333B, 33 (1994)

J.Barrette, R.Bellwied, P.Braun-Munzinger, W.E.Cleland, T.M.Cormier, G.David, J.Dee, G.E.Diebold, O.Dietzsch, J.V.Germani, S.Gilbert, S.V.Greene, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, K.Jayananda, D.Kraus, B.Shiva Kumar, R.Lacasse, D.Lissauer, W.J.Llope, T.W.Ludlam, S.McCorkle, R.Majka, S.K.Mark, J.T.Mitchell, M.Muthuswamy, E.O'Brien, S.Panitkin, C.Pruneau, M.N.Rao, F.Rotondo, N.C.daSilva, U.Sonnadara, J.Stachel, H.Takai, E.M.Takagui, T.G.Throwe, S.Voloshin, G.Wang, D.Wolfe, C.L.Woody, N.Xu, Y.Zhang, Z.Zhang, C.Zou, and the E814 Collaboration

Evidence for Expansion of a Hot Fireball from Two-Pion Correlations for Si + Pb Collisions at AGS Energy

NUCLEAR REACTIONS Pb(Si, X), E at 14.6 GeV/nucleon; measured two-pion correlation function; deduced hot fireball expansion evidence.

doi: 10.1016/0370-2693(94)91004-9
Citations: PlumX Metrics

1994BA78      Phys.Rev.Lett. 73, 2532 (1994)

J.Barrette, R.Bellwied, S.Bennett, P.Braun-Munzinger, W.E.Cleland, M.Clemen, J.Cole, T.M.Cormier, G.David, J.Dee, O.Dietzsch, M.Drigert, S.Gilbert, J.R.Hall, T.K.Hemmick, N.Herrmann, B.Hong, C.L.Jiang, Y.Kwon, R.Lacasse, A.Lukaszew, Q.Li, T.W.Ludlam, S.McCorkle, S.K.Mark, R.Matheus, E.O'Brien, S.Panitkin, T.Piazza, C.Pruneau, M.N.Rao, M.Rosati, N.C.daSilva, S.Sedykh, U.Sonnadara, J.Stachel, H.Takai, E.M.Takagui, S.Voloshin, G.Wang, J.P.Wessels, C.L.Woody, N.Xu, Y.Zhang, Z.Zhang, C.Zou, and the E877 Collaboration

Observation of Anisotropic Event Shape and Transverse Flow in Ultrarelativistic Au + Au Collisions

NUCLEAR REACTIONS ¹⁹⁷Au(¹⁹⁷Au, X), E at 11.4 GeV/c/nucleon; measured event shapes; deduced anistropy, transverse flow features.

doi: 10.1103/PhysRevLett.73.2532
Citations: PlumX Metrics

1992CO29      Nucl.Instrum.Methods Phys.Res. B70, 343 (1992)

J.D.Cole, T.M.Cormier, J.H.Hamilton, A.V.Ramayya

A Recoil Mass Spectrometer HHIRF

NUCLEAR REACTIONS ¹⁶O(⁵⁸Ni, 4n), E=290 MeV; ¹²C(¹⁵⁶Gd, 4n), E=780 MeV; measured product spectra. Recoil mass spectrometer.

doi: 10.1016/0168-583X(92)95950-V
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1990CO36      Nucl.Instrum.Methods Phys.Res. A297, 199 (1990)

T.M.Cormier, J.D.Cole, J.H.Hamilton, A.V.Ramayya

A Large-Solid-Angle High-Resolution Recoil Mass Spectrometer Optimized for Use with Gammasphere

NUCLEAR REACTIONS ¹²C(¹⁵⁶Gd, ¹⁶⁴Yb), E=780 MeV; measured reaction product 2D-spectra. Large solid angle, high resolution recoil mass spectrometer.

doi: 10.1016/0168-9002(90)91367-K
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1990DE44      Phys.Lett. 249B, 195 (1990)

H.Dejbakhsh, T.M.Cormier, X.Zhao, A.V.Ramayya, L.Chaturvedi, S.Zhu, J.Kormicki, J.H.Hamilton, M.Satteson, I.Y.Lee, C.Baktash, F.K.McGowan, N.R.Johnson, J.D.Cole, E.F.Zganjar

Signature of the Shape Coexistence in ⁷²Kr: Discontinuities of the moment of inertia at low spin

NUCLEAR REACTIONS ⁴⁰Ca(³⁵Cl, 2np), E=95 MeV; measured γγ-coin. ⁷²Kr deduced levels, J, π, band structure, shape features.

doi: 10.1016/0370-2693(90)91242-4
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1990SA04      J.Phys.(London) G16, L27 (1990)

M.Satteson, A.V.Ramayya, T.M.Cormier, H.E.Gove, L.Chaturvedi, X.Zhao, J.Kormicki, J.H.Hamilton, E.F.Zganjar, I.Y.Lee, C.Baktash, F.K.McGowan, N.R.Johnson, J.D.Cole, H.Dejbakhsh

Identification of Transitions in ⁷³Kr and the Search for Large Oblate Deformation

NUCLEAR REACTIONS ⁴⁰Ca(³⁵Cl, np), E=95 MeV; measured Eγ, Iγ, γγ-coin. ⁷³Kr deduced levels, J, π, band structure.

doi: 10.1088/0954-3899/16/2/002
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1990SZ05      Phys.Rev. C41, 2164 (1990)

E.M.Szanto, R.Liguori Neto, M.C.S.Figueira, A.Szanto de Toledo, M.G.Herman, N.G.Nicolis, P.M.Stwertka, T.M.Cormier

Search for Valence Proton Effects in Sub-Barrier Fusion Reactions

NUCLEAR REACTIONS, ICPND ⁵⁰Ti, ⁵¹V, ^52,54Cr, ⁵⁴Fe(³⁵Cl, X), E(cm) ≈ 50-80 MeV; measured fusion, residual production σ(E); deduced valence proton effects role.

doi: 10.1103/PhysRevC.41.2164
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1988HE09      Phys.Lett. 203B, 29 (1988)

M.G.Herman, T.M.Cormier, M.Satteson

Statistical Origin of the Highest-Energy Fusion-Induced Gamma Rays

NUCLEAR REACTIONS ⁵⁴Fe(³⁵Cl, X), E=95-150 MeV; measured γ-multiplicities, γ-spectra; deduced GDR statistical decay of mass=85, 86, 87 nuclei.

doi: 10.1016/0370-2693(88)91564-X
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1988HU01      Phys.Rev. C37, 118 (1988)

U.J.Huttmeier, C.J.Gross, D.M.Headly, E.F.Moore, S.L.Tabor, T.M.Cormier, P.M.Stwertka, W.Nazarewicz

Level Structure of ⁸³Zr

NUCLEAR REACTIONS ⁵⁴Fe(³²S, n2p), E=105-115 MeV; measured Eγ, Iγ(θ), nγ-, (X-ray)γ-, γγ-coin. ⁸³Zr deduced levels, π, J, T_1/2, rotational bands, band crossings. Compton suppressed Ge detectors.

NUCLEAR STRUCTURE ⁸³Zr; calculated deformation, Routhians. Woods-Saxon cranking model.

doi: 10.1103/PhysRevC.37.118
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1986NI07      Phys.Lett. 178B, 339 (1986)

N.G.Nicolis, T.M.Cormier, P.M.Stwertka, M.G.Herman

Angular-Momentum Limitations in the High-Spin Gamma-Decay of Medium-Mass Evaporation Residues

NUCLEAR REACTIONS, ICPND ⁵⁴Fe(²⁸Si, X)⁸⁰Sr/⁷⁹Sr/⁷⁸Sr/⁷⁹Rb/⁷⁶Kr/⁷⁸Kr/⁷⁴Kr, E=75-145 MeV; measured γ-ray multiplicity, evaporation residue σ(E). NaI γ-ray multiplicity filter. Statistical model calculations.

doi: 10.1016/0370-2693(86)91390-0
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0359.

1985ST01      Phys.Lett. 150B, 91 (1985)

P.M.Stwertka, T.M.Cormier, M.Herman, N.G.Nicolis

Inhibition of Nucleon Decay from High Spin Nuclei near the N = 82 Shell Closure

NUCLEAR REACTIONS ^124,118,112Sn(²⁸Si, X), E ≈ 100-180 MeV; measured fusion σ(E); deduced average neutron multiplicity. Statistical model comparison.

doi: 10.1016/0370-2693(85)90145-5
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1985ST06      Phys.Rev.Lett. 54, 1635 (1985)

P.M.Stwertka, T.M.Cormier, M.G.Herman, N.G.Nicolis

High-Spin Evolution of Quasicontinuum γ Radiation in ¹⁵⁶Er

NUCLEAR REACTIONS ¹²⁸Te(³²S, 4n), E=135-156 MeV; measured Eγ, Iγ, γ-multiplicity, γ(θ). ¹⁵⁶Er deduced spin, energy correlated high J transitions.

doi: 10.1103/PhysRevLett.54.1635
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1985ST21      Phys.Lett. 161B, 70 (1985)

P.M.Stwertka, T.M.Cormier, N.G.Nicolis, M.G.Herman

The Onset of Collectivity in Nuclei near the N = 82, Z = 64 Double Closed Shell

NUCLEAR REACTIONS ^122,124Sn(²⁸Si, xn), E=120-126 MeV; measured quasicontinuum Eγ, Iγ, γ-multiplicities. ^{145,146,147,148}Gd deduced spin-energy correlated rotational transitions, collective behavior J dependence.

doi: 10.1016/0370-2693(85)90611-2
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1985WE10      J.Phys.(London) G11, L173 (1985)

S.Wen, A.V.Ramayya, S.J.Robinson, C.F.Maguire, W.C.Ma, X.Zhao, T.M.Cormier, P.M.Stwertka, J.D.Cole, E.F.Zganjar, R.B.Piercey, M.A.Herath-Banda, J.Eberth, M.Wiosna

First Cascades in ⁷³Br and High-Spin States in ⁷⁵Br

NUCLEAR REACTIONS ⁵⁴Fe(²⁸Si, xnyp), E=128 MeV; measured Eγ, Iγ, γ(fragment)-coin. ^73,75Br deduced levels, J, π, γ-branching, band structure.

doi: 10.1088/0305-4616/11/9/007
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1984CO26      Phys.Rev. C30, 1953 (1984)

T.M.Cormier, P.M.Stwertka, M.Herman, N.G.Nicolis

Internal Conversion and the Evolution of Nuclear Structure at very High Spin: ^154-158Er

NUCLEAR REACTIONS ^126,128,130Te(³²S, xn)(³⁴S, xn)¹⁵⁴Er/¹⁵⁵Er/¹⁵⁶Er/¹⁵⁷Er/¹⁵⁸Er, E=130-160 MeV; measured residuals atomic charge state distributions. ^{154,155,156,157,158}Er deduced internal conversion probability vs unit spin, critical spin enhancement, rotational structure characteristics.

doi: 10.1103/PhysRevC.30.1953
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1984CO27      Phys.Rev. C30, 2092 (1984)

M.M.Coimbra, N.Carlin Filho, A.Szanto de Toledo, P.M.Stwertka, M.G.Herman, N.G.Nicolis, T.M.Cormier

Use of Energy-Averaged Cross Sections for Nuclear Spectroscopy: ²⁶Mg states in the continuum

NUCLEAR REACTIONS ¹²C(¹⁸O, α), E=46-50 MeV: measured σ(Eα), σ(θ); deduced energy averaged σ. ²⁶Mg deduced continuum states.

doi: 10.1103/PhysRevC.30.2092
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC0219.

1984FU02      Phys.Lett. 136B, 322 (1984)

B.R.Fulton, J.S.Lilley, R.Lindsay, M.A.Nagarajan, N.Rowley, R.Shyam, T.M.Cormier, P.M.Stwertka

Structure in the 0₂⁺ Excitation Function in ¹²C + ¹²C Scattering

NUCLEAR REACTIONS, ICPND ¹²C(¹²C, ¹²C'), E(cm)=20-40 MeV; measured σ(E), σ(θ); deduced barrier matching, barrier, internal wave interference effects. DWBA, no resonance contribution.

doi: 10.1016/0370-2693(84)92012-4
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1984SZ05      Phys.Rev. C30, 1706 (1984)

A.Szanto de Toledo, T.M.Cormier, M.M.Coimbra, N.Carlin Filho, P.M.Stwertka, N.G.Nicolis

²⁴Mg Yrast Sequence up to 30 MeV Excitation

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=94, 97 MeV; measured σ(θ), σ(Eα). ²⁴Mg deduced yrast sequence, effective moment of inertia.

doi: 10.1103/PhysRevC.30.1706
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1983CO13      Nucl.Instrum.Methods 212, 185 (1983)

T.M.Cormier, M.G.Herman, B.S.Lin, P.M.Stwertka

Performance of a Recoil Mass Spectrometer

NUCLEAR REACTIONS ⁵⁸Ni(³⁵Cl, X), E=120 MeV; ¹²⁰Sn(³⁵Cl, X), E=138 MeV; measured σ(evaporation residue) vs mass. Recoil mass spectrometer.

doi: 10.1016/0167-5087(83)90690-7
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1983CO14      Phys.Rev.Lett. 51, 542 (1983)

T.M.Cormier, P.M.Cormier, M.Herman, N.G.Nicolis, P.M.Stwertka

Atomic-Charge-State Distributions of Fusion-Evaporation Residues and Nuclear Shape Changes at High Spin

NUCLEAR REACTIONS ^126,128,130Te(³²S, xn), (³⁴S, xn), E=120-170 MeV; measured evaporation residue atomic charge state distribution. ^158,156Er deduced internal conversion probability, shape spin dependences. Recoil mass spectrometry.

doi: 10.1103/PhysRevLett.51.542
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1983FU03      Phys.Rev. C27, 1811 (1983)

B.R.Fulton, J.S.Lilley, T.M.Cormier, P.M.Stwertka

Search for Resonant Behavior in ¹⁶O + ²⁴Mg Inelastic Scattering

NUCLEAR REACTIONS ²⁴Mg(¹⁶O, ¹⁶O'), E=41.6-65.6 MeV; measured σ(θ) vs E; deduced no structure.

doi: 10.1103/PhysRevC.27.1811
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1983LI10      Phys.Lett. 128B, 153 (1983)

J.S.Lilley, B.R.Fulton, D.Banes, T.M.Cormier, I.J.Thompson, S.Landowne, H.H.Wolter

Excitation of ¹⁷O and ¹⁸O Scattered by ²⁰⁸Pb in the Coulomb-Nuclear Interference Region

NUCLEAR REACTIONS ²⁰⁸Pb(¹⁷O, ¹⁷O'), (¹⁸O, ¹⁸O'), E=78 MeV; measured σ(θ), σ(E(¹⁷O)), σ(E(¹⁸O)); deduced recoil, nonorthogonality effect role. ^17,18O level deduced excitation mechanism. Finite-range coupled-channels calculations.

doi: 10.1016/0370-2693(83)90379-9
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1982CO25      Phys.Lett. 118B, 303 (1982)

T.M.Cormier, A.Szanto De Toledo, M.M.Coimbra, N.Carlin Filho, P.Stwertka, M.Herman, N.Nicolis

The Validity of the Compound Nucleus Mechanism in the ¹²C(¹⁶O, α) Reaction at High Energies

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=40-150 MeV; measured σ(θ) vs E; deduced reaction mechanism. Compound nucleus model, Hauser-Feshbach analysis.

doi: 10.1016/0370-2693(82)90189-7
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1982ST11      Phys.Rev.Lett. 49, 640 (1982)

P.M.Stwertka, T.M.Cormier, M.Herman, N.Nicolis, A.Szanto de Toledo, M.M.Coimbra, N.Carlin Filho

Kinematics of the Gross Structures in the α Spectrum of the ¹⁶O + ¹²C Reaction

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=94-150 MeV; measured σ(Eα) vs E; deduced reaction mechanism. ²⁴Mg deduced narrow, closely spaced levels. Kinematic analysis, inclusive reactions.

doi: 10.1103/PhysRevLett.49.640
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1981SZ05      Phys.Rev.Lett. 47, 632 (1981)

A.Szanto de Toledo, M.M.Coimbra, N.Carlin Filho, T.M.Cormier, P.M.Stwertka

Interpretation of Gross Structures in the Energy Spectra of the Reaction ¹²C(¹⁶O, α)²⁴Mg

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=48.8, 54.2, 58.6, 55, 60, 65 MeV; measured σ(Eα, θ). ²⁴Mg deduced yrast sequence. Si surface barrier detector telescopes.

doi: 10.1103/PhysRevLett.47.632
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1981SZ06      Phys.Rev.Lett. 47, 1881 (1981)

A.Szanto de Toledo, T.M.Cormier, M.Herman, B.Lin, P.M.Stwertka, M.M.Coimbra, N.C.Filho

Limiting Angular Momenta for Light Heavy-Ion Fusion at High Energy

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=28.5-100 MeV; measured σ(θ); deduced no low-L cut off. Legendre polynomial analysis.

doi: 10.1103/PhysRevLett.47.1881
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1981SZ07      Fizika(Zagreb) 13, Suppl.No.1, 29 (1981)

A.Szanto de Toledo, M.M.Coimbra, N.C.Filho, T.M.Cormier, P.M.Stwertka

An Interpretation of Gross Structures in the Energy Spectra of the ¹²C(¹⁶O, α)²⁴Mg Reactions

NUCLEAR REACTIONS ¹²C(¹⁶O, α), E=48.8, 54.2, 58.6, 55, 65 MeV; measured σ(θ), σ(Eα); deduced broad structures, angular momentum matching. ²⁴Mg deduced selective yrast cluster population.

1980CO10      Phys.Rev. C22, 565 (1980)

T.M.Cormier, B.R.Fulton

Structure in the Excitation Functions of the ¹²C(¹²C, ¹⁰B) and ¹²C(¹²C, ¹¹B) Reactions

NUCLEAR REACTIONS ¹²C(¹²C, ¹⁰B), (¹²C, ¹¹B), E=45-82 MeV; measured σ(E). ²⁴Mg deduced resonances, reduced partial width ratios.

doi: 10.1103/PhysRevC.22.565
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1980FU01      Phys.Rev. C21, 198 (1980)

B.R.Fulton, T.M.Cormier, B.J.Herman

Resonances in ¹²C + ¹²C Inelastic Scattering to the 0₂⁺, 3₁^-, and 4₁⁺ States

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C), E=44-80 MeV; measured σ(E, θ). ²⁴Mg resonances deduced energies, widths.

doi: 10.1103/PhysRevC.21.198
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1980FU06      Phys.Lett. B97, 209 (1980)

B.R.Fulton, T.M.Cormier

A Search for Resonant Two-Step α-Exchange in ⁶Li + ¹²C Scattering

NUCLEAR REACTIONS ¹²C(⁶Li, ⁶Li), (⁶Li, ⁶Li'), E=20-36 MeV; measured σ(E(⁶Li), θ); deduced no evidence for resonant two-step α-exchange mechanism.

doi: 10.1016/0370-2693(80)90584-5
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1979CL06      Phys.Rev.Lett. 43, 256 (1979)

M.R.Clover, T.M.Cormier, B.R.Fulton, B.J.Herman

Resonance in the Two-Nucleon Transfer Reaction ¹²C(¹²C, ¹⁰B)¹⁴N

NUCLEAR REACTIONS ¹²C(¹²C, ¹⁰B), E(cm)=22-42 MeV; measured σ(E, θ). ²⁴Mg deduced resonances, J, π, reduced partial widths.

doi: 10.1103/PhysRevLett.43.256
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1978CO05      Phys.Rev.Lett. 40, 924 (1978)

T.M.Cormier, C.M.Jachcinski, G.M.Berkowitz, P.Braun-Munzinger, P.M.Cormier, M.Gai, J.W.Harris, J.Barrette, H.E.Wegner

Partial Widths of Molecular Resonances in the System ¹²C + ¹²C

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C'), (¹²C, X), E(cm)=15-35 MeV; measured total reaction σ for mutual inelastic scattering, fusion. ²⁴Mg deduced resonances, S, J, π.

doi: 10.1103/PhysRevLett.40.924
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1978JA04      Phys.Rev. C17, 1263 (1978)

C.M.Jachcinski, T.M.Cormier, P.Braun-Munzinger, G.M.Berkowitz, P.M.Cormier, M.Gai, J.W.Harris

Correlation between Fusion and Inelastic Scattering in the System ¹⁶O + ¹²C

NUCLEAR REACTIONS ¹²C(¹⁶O, ¹⁶O), E(cm)=15.4-30.9 MeV; measured σ(E); deduced evidence for shape resonances. Compared with structure in fusion excitation function.

doi: 10.1103/PhysRevC.17.1263
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1977BR10      Phys.Rev.Lett. 38, 944 (1977)

P.Braun-Munzinger, G.M.Berkowitz, T.M.Cormier, C.M.Jachcinski, J.W.Harris, J.Barrette, M.J.Levine

Undamped Surface Waves in the Scattering of ¹⁶O + ²⁸Si at E(c.m.) = 35 MeV

NUCLEAR REACTIONS ²⁸Si(¹⁶O, ¹⁶O), ¹⁶O(²⁸Si, ²⁸Si), E(cm)=35 MeV; measured σ(θ).

doi: 10.1103/PhysRevLett.38.944
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1977CO02      Phys.Rev. C15, 654 (1977)

T.M.Cormier, E.R.Cosman, A.J.Lazzarini, H.E.Wegner, J.D.Garrett, F.Puhlhofer

Mass Systematics of Evaporation Residues from ³⁵Cl- and ³²S-Induced Fusion on Light Targets

NUCLEAR REACTIONS ^24,25,26Mg, ²⁸Si, ²⁷Al(³²S, X), E=130 MeV; ²⁸Si(²⁸Si, X), E=117.5 MeV; ²⁸Si, ^24,25,26Mg(³⁵Cl, X), E=145.6 MeV; ²⁷Al(³⁵Cl, X), E=100-170 MeV; measured fusion σ(A).

doi: 10.1103/PhysRevC.15.654
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1977CO05      Phys.Rev.Lett. 38, 940 (1977)

T.M.Cormier, J.Applegate, G.M.Berkowitz, P.Braun-Munzinger, P.M.Cormier, J.W.Harris, C.M.Jachcinski, L.L.Lee, Jr., J.Barrette, H.E.Wegner

Molecular Resonances in ¹²C + ¹²C Inelastic Scattering

NUCLEAR REACTIONS ¹²C(¹²C, ¹²C'), E(cm)=15-45 MeV; measured total σ(E) for 2+→0+ transitions. ²⁴Mg deduced resonances, J, π, Γ.

doi: 10.1103/PhysRevLett.38.940
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1977CO14      Phys.Rev. C16, 215 (1977)

T.M.Cormier, P.Braun-Munzinger, P.M.Cormier, J.W.Harris, L.L.Lee, Jr.

Bombarding Energy Dependence of Deep Inelastic Fragment Kinetic Energies

NUCLEAR REACTIONS ²⁷Al(³⁵Cl, X), E=140-170 MeV; measured quasifission fragment (E, θ).

doi: 10.1103/PhysRevC.16.215
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1977HA18      Phys.Rev.Lett. 38, 1460 (1977)

J.W.Harris, T.M.Cormier, D.F.Geesaman, L.L.Lee, Jr., R.L.McGrath, J.P.Wurm

Pre-Equilibrium α Decay in ¹⁶O + ²⁷Al Collisions at 65 MeV

NUCLEAR REACTIONS ²⁷Al(¹⁶O, α¹²C), E=65.6 MeV; measured angular correlation; deduced reaction mechanism, pre-equilibrium α decay.

doi: 10.1103/PhysRevLett.38.1460
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1976BR31      Phys.Rev.Lett. 37, 1582 (1976)

P.Braun-Munzinger, T.M.Cormier, C.K.Gelbke

Remarks on Rotational-Energy Contributions to the Kinetic Energies of Deep Inelastic Reaction Products

NUCLEAR REACTIONS ²⁷Al(³⁵Cl, X), E=140-170 MeV; measured σ(E, Z, θ), Z=6-16.

doi: 10.1103/PhysRevLett.37.1582
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1976CO05      Phys.Rev. C13, 682 (1976)

T.M.Cormier, A.J.Lazzarini, M.A.Neuhausen, A.Sperduto, K.Van Bibber, F.Videbaek, G.Young, E.B.Blum, L.Herreid, W.Thoms

Deep Inelastic Nucleon Transfer in ¹⁶O + ²⁷Al Reactions at 90 and 100 MeV

NUCLEAR REACTIONS ²⁷Al(¹⁶O, X), E=90, 100 MeV; measured σ(A, θ), A=6-22; deduced optimum Q.

doi: 10.1103/PhysRevC.13.682
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1976CO20      Phys.Rev. C14, 334 (1976)

T.M.Cormier, E.R.Cosman, A.J.Lazzarini, J.D.Garrett, H.E.Wegner

Two-Body Final-State Coincidence Measurements for Fissionlike Processes Following ³⁵Cl + ²⁷Al Fusion

NUCLEAR REACTIONS ²⁷Al(³⁵Cl, X), E=170 MeV; measured fusion fragment-fragment (E, A).

doi: 10.1103/PhysRevC.14.334
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1975CO10      Phys.Rev.Lett. 35, 265 (1975)

E.R.Cosman, T.M.Cormier, K.Van Bibber, A.Sperduto, G.Young, J.Erskine, L.R.Greenwood, O.Hansen

Evidence for a ¹²C + ¹²C Collective Band in ²⁴Mg

NUCLEAR REACTIONS ¹²C(¹²C, p), E(cm)=6.75-30 MeV; measured σ(E, Ep). ²³Na deduced resonances, J, π. ²⁴Mg deduced resonance anomaly.

doi: 10.1103/PhysRevLett.35.265
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1975CO14      Nucl.Phys. A247, 377 (1975)

T.M.Cormier, E.R.Cosman, L.Grodzins, O.Hansen, S.Steadman, K.Van Bibber, G.Young

Gamma Rays from ²³Na States Excited in the ¹²C(¹²C, p) Reaction at E = 38.6 MeV

NUCLEAR REACTIONS ¹²C(¹²C, pγ), E=38.6 MeV; measured Eγ, Iγ, γγ-coin, pγ-coin. ²³Na deduced levels, J, π.

doi: 10.1016/0375-9474(75)90643-0
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1975GA12      Phys.Rev. C12, 481 (1975)

J.D.Garrett, H.E.Wegner, T.M.Cormier, E.R.Cosman, A.J.Lazzarini

Mass and Energy Distributions of Fusion Products from ³²S on ¹²C, ²⁵Mg, And ⁴⁰Ca

NUCLEAR REACTIONS ¹²C, ²⁵Mg, ⁴⁰Ca(³²S, X), E=128.9 MeV; measured σ(E(fragment mass)).

doi: 10.1103/PhysRevC.12.481
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1975GA13      Phys.Rev. C12, 489 (1975)

J.D.Garrett, H.E.Wegner, T.M.Cormier, E.R.Cosman, O.Hansen, A.J.Lazzarini

Elastic Scattering and Transfer Reactions Induced by 100 MeV ³²S on ²⁷Al

NUCLEAR REACTIONS ²⁷Al(³²S, ³²S), E=100 MeV; measured σ(θ). ²⁷Al(³²S, ³¹P), E=100 MeV; measured σ(E(³¹P), θ). ²⁷Al(³²S, ³³S), E=100 MeV; measured σ(E(³³S), θ). ²⁷Al(³²S, X), E=100 MeV; measured σ. ²⁸Si levels deduced S.

doi: 10.1103/PhysRevC.12.489
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1974CO17      Phys.Rev. C9, 2046 (1974)

E.R.Cosman, A.Sperduto, T.M.Cormier, T.N.Chin, H.E.Wegner

Comparison of the Structure Seen in the Reactions ¹⁶O(¹⁶O, α)²⁸Si and ²⁰Ne(¹²C, α)²⁸Si

NUCLEAR REACTIONS ¹⁶O(¹⁶O, α), E=35-70 MeV; ²⁰Ne(¹²C, α), E=28-40 MeV; measured σ(E, Eα, θ).

doi: 10.1103/PhysRevC.9.2046
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1974VA01      Phys.Rev.Lett. 32, 687 (1974)

K.Van Bibber, E.R.Cosman, A.Sperduto, T.M.Cormier, T.N.Chin, O.Hansen

Resonance in the Reaction ¹²C(¹²C, p)²³Na at E(c.m.) = 19.3 MeV

NUCLEAR REACTIONS ¹²C(¹²C, p), E(cm)=10-22 MeV; measured σ(E;Ep, θ). ²³Na deduced levels. ²⁴Mg deduced resonance, level-width.

doi: 10.1103/PhysRevLett.32.687
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1972CO28      Phys.Rev.Lett. 29, 1341 (1972)

E.R.Cosman, A.Sperduto, T.M.Cormier, T.N.Chin, H.E.Wegner, M.J.LeVine, D.Schwalm

Structure in the Excitation Functions of ¹²C(¹⁶O, p)²⁷Al, ¹²C(¹⁶O, d)²⁶Al, and ¹²C(¹⁶O, α)²⁴Mg

NUCLEAR REACTIONS ¹²C(¹⁶O, p), (¹⁶O, d), (¹⁶O, α), E=10-26 MeV cms; measured σ(E); deduced large statistical compound-nucleus contribution. ²⁸Si deduced resonance structure, level-width.

doi: 10.1103/PhysRevLett.29.1341
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1971CO24      Phys.Rev.Lett. 27, 1074 (1971)

E.R.Cosman, A.Sperduto, W.H.Moore, T.N.Chin, T.M.Cormier

Selective Population of Highly Excited States Seen in the Reaction ¹²C(¹⁶O, p)²⁷Al

NUCLEAR REACTIONS ¹²C(¹⁶O, p), E=36, 60 MeV; measured σ(Ep, θ). ²⁷Al deduced selective population of 13-20 MeV states, yrast line.

doi: 10.1103/PhysRevLett.27.1074
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