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NSR database version of April 11, 2024.

Search: Author = D.J.Dean

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2022TE06      Few-Body Systems 63, 67 (2022)

I.Tews, Z.Davoudi, A.Ekstrom, J.D.Holt, K.Becker, R.Briceno, D.J.Dean, W.Detmold, C.Drischler, T.Duguet, E.Epelbaum, A.Gasparyan, J.Gegelia, J.R.Green, H.W.Griesshammer, A.D.Hanlon, M.Heinz, H.Hergert, M.Hoferichter, M.Illa, D.Kekejian, A.Kievsky, S.Konig, H.Krebs, K.D.Launey, D.Lee, P.Navratil, A.Nicholson, A.Parreno, D.R.Phillips, M.Ploszajczak, X.-L.Ren, T.R.Richardson, C.Robin, G.H.Sargsyan, M.J.Savage, M.R.Schindler, P.E.Shanahan, R.P.Springer, A.Tichai, U.van Kolck, M.L.Wagman, A.Walker-Loud, C.-J.Yang, X.Zhang

Nuclear Forces for Precision Nuclear Physics: A Collection of Perspectives

doi: 10.1007/s00601-022-01749-x
Citations: PlumX Metrics

2020TA02      Phys.Rev.Lett. 124, 052502 (2020)

T.Tanaka, K.Morita, K.Morimoto, D.Kaji, H.Haba, R.A.Boll, N.T.Brewer, S.Van Cleve, D.J.Dean, S.Ishizawa, Y.Ito, Y.Komori, K.Nishio, T.Niwase, B.C.Rasco, J.B.Roberto, K.P.Rykaczewski, H.Sakai, D.W.Stracener, K.Hagino

Study of Quasielastic Barrier Distributions as a Step towards the Synthesis of Superheavy Elements with Hot Fusion Reactions

NUCLEAR REACTIONS ²⁴⁸Cm(²²Ne, X), (²⁶Mg, X), ²³⁸U(⁴⁸Ca, X), E(cm)=165.1, 203.7 MeV; measured reaction products; deduced σ. Comparison with available data.

doi: 10.1103/PhysRevLett.124.052502
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2019AS01      Nucl.Instrum.Methods Phys.Res. A922, 287 (2019)

J.Ashenfelter, A.B.Balantekin, C.Baldenegro, H.R.Band, C.D.Bass, D.E.Bergeron, D.Berish, L.J.Bignell, N.S.Bowden, J.Boyle, J.Bricco, J.P.Brodsky, C.D.Bryan, A.B.Telles, J.J.Cherwinka, T.Classen, K.Commeford, A.J.Conant, A.A.Cox, D.Davee, D.Dean, G.Deichert, M.V.Diwan, M.J.Dolinski, A.Erickson, M.Febbraro, B.T.Foust, J.K.Gaison, A.Galindo-Uribarri, C.E.Gilbert, K.E.Gilje, A.Glenn, B.W.Goddard, B.T.Hackett, K.Han, S.Hans, A.B.Hansell, K.M.Heeger, B.Heffron, J.Insler, D.E.Jaffe, X.Ji, D.C.Jones, K.Koehler, O.Kyzylova, C.E.Lane, T.J.Langford, J.LaRosa, B.R.Littlejohn, F.Lopez, X.Lu, D.A.Martinez Caicedo, J.T.Matta, R.D.McKeown, M.P.Mendenhall, H.J.Miller, J.M.Minock, P.E.Mueller, H.P.Mumm, J.Napolitano, R.Neilson, J.A.Nikkel, D.Norcini, S.Nour, D.A.Pushin, X.Qian, E.Romero-Romero, R.Rosero, D.Sarenac, B.S.Seilhan, R.Sharma, P.T.Surukuchi, C.Trinh, M.A.Tyra, R.L.Varner, B.Viren, J.M.Wagner, W.Wang, B.White, C.White, J.Wilhelmi, T.Wise, H.Yao, M.Yeh, Y.-R.Yen, A.Zhang, C.Zhang, X.Zhang, M.Zhao

The PROSPECT reactor antineutrino experiment

doi: 10.1016/j.nima.2018.12.079
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2018BR13      Phys.Rev. C 98, 024317 (2018)

N.T.Brewer, V.K.Utyonkov, K.P.Rykaczewski, Yu.Ts.Oganessian, F.Sh.Abdullin, R.A.Boll, D.J.Dean, S.N.Dmitriev, J.G.Ezold, L.K.Felker, R.K.Grzywacz, M.G.Itkis, N.D.Kovrizhnykh, D.C.McInturff, K.Miernik, G.D.Owen, A.N.Polyakov, A.G.Popeko, J.B.Roberto, A.V.Sabelnikov, R.N.Sagaidak, I.V.Shirokovsky, M.V.Shumeiko, N.J.Sims, E.H.Smith, V.G.Subbotin, A.M.Sukhov, A.I.Svirikhin, Yu.S.Tsyganov, S.M.Van Cleve, A.A.Voinov, G.K.Vostokin, C.S.White, J.H.Hamilton, M.A.Stoyer

Search for the heaviest atomic nuclei among the products from reactions of mixed-Cf with a ⁴⁸Ca beam

NUCLEAR REACTIONS ^{249,250,251,252}Cf(⁴⁸Ca, 2n), (⁴⁸Ca, 3n), (⁴⁸Ca, 4n), (⁴⁸Ca, 5n), E^*=33-50 MeV; calculated evaporation residual cross sections using from five models for analyzing reactions. ^249,250,251Cf(⁴⁸Ca, xn)²⁹⁴Og, E=252, 258 MeV; Yb(⁴⁸Ca, xn)²¹⁶Th/²¹⁷Th/²¹⁸Th/²¹⁹Th/²²⁰Th, E=252, 258 MeV; ²⁰⁶Pb(⁴⁸Ca, 2n)²⁵²No, E=252, 258 MeV; measured Eα, Iα and (implants)α correlations, using Dubna Gas Filled Recoil Separator (DGFRS) for recoil separation and double-sided silicon strip detectors for α detection at JINR. Reviewed earlier experiments from 2002 to 2012 for the detection of ²⁹⁴Og nuclide. ^295,296Og; predicted production σ, half-life and Eα for the decay of ²⁹⁶Og; discussed future prospects for production of these two nuclides.

RADIOACTIVITY ²⁹⁴Og, ²⁹⁰Lv, ^218,219Th, ^214,215Ra(α); ²⁸⁶Fl(SF); measured Eα, Q(α) and T_1/2. ^294,296Og(α); comparison of experimental values for Q(α) and T_1/2 for ²⁹⁴Og with theoretical predictions for ²⁹⁴Og and ²⁹⁶Og.

doi: 10.1103/PhysRevC.98.024317
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2013NA20      J.Phys.:Conf.Ser. 445, 012029 (2013)

H.Nam, D.J.Dean

Re-entrance in nuclei: competitive phenomena

doi: 10.1088/1742-6596/445/1/012029
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2011MA35      Phys.Rev.Lett. 106, 202502 (2011)

P.Maris, J.P.Vary, P.Navratil, W.E.Ormand, H.Nam, D.J.Dean

Origin of the Anomalous Long Lifetime of ¹⁴C

NUCLEAR STRUCTURE ¹⁴C, ¹⁴N; calculated rms radii, quadrupole moment, dipole moment, B(M1), β-decay matrix elements. deduced long lifetime for ¹⁴C. Ab initio no-core shell model calculations.

doi: 10.1103/PhysRevLett.106.202502
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2010DE35      Phys.Rev.Lett. 105, 212504 (2010)

D.J.Dean, K.Langanke, H.Nam, W.Nazarewicz

Pairing Reentrance Phenomenon in Heated Rotating Nuclei in the Shell-Model Monte Carlo Approach

NUCLEAR STRUCTURE ⁷²Ge; calculated rotational motion of heated nucleus, neutron occupation, pairing strength, angular momentum. Microscopic shell-model Monte Carlo approach.

doi: 10.1103/PhysRevLett.105.212504
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2010HA22      Phys.Rev. C 82, 034330 (2010)

G.Hagen, T.Papenbrock, D.J.Dean, M.Hjorth-Jensen

Ab initio coupled-cluster approach to nuclear structure with modern nucleon-nucleon interactions

NUCLEAR STRUCTURE ⁴He, ^{16,17,22,24,25,28}O, ^{16,22,24,25,28}F, ^40,48Ca; calculated ground-state energies, rms radii, single-particle energies, and binding energies. Coupled-cluster model with bare and secondary renormalized nucleon-nucleon interactions. Comparison with experimental data.

doi: 10.1103/PhysRevC.82.034330
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2010JE03      Phys.Rev. C 82, 014310 (2010)

O.Jensen, G.Hagen, T.Papenbrock, D.J.Dean, J.S.Vaagen

Computation of spectroscopic factors with the coupled-cluster method

NUCLEAR STRUCTURE ¹⁵N, ^15,16O; calculated ground-state energies, spectroscopic factors for removal of proton and neutron from ¹⁶O using coupled-cluster theory and equation of motion.

doi: 10.1103/PhysRevC.82.014310
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2009HA20      Phys.Rev.Lett. 103, 062503 (2009)

G.Hagen, T.Papenbrock, D.J.Dean

Solution of the Center-Of-Mass Problem in Nuclear Structure Calculations

NUCLEAR STRUCTURE ⁴He, ¹⁶O; calculated nuclear wave function as a product of intrinsic and center-of-mass in a sufficiently large model space.

doi: 10.1103/PhysRevLett.103.062503
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2009HA26      Phys.Rev. C 80, 021306 (2009)

G.Hagen, T.Papenbrock, D.J.Dean, M.Hjorth-Jensen, B.Velamur Asokan

Ab initio computation of neutron-rich oxygen isotopes

NUCLEAR STRUCTURE ^16,22,24,28O; calculated ground-state energies, binding energies and rms point matter radii using ab initio calculations with the coupled-cluster model and chiral nucleon-nucleon interaction N³LO. Comparison with experimental data.

doi: 10.1103/PhysRevC.80.021306
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2008DE21      Nucl.Phys. A805, 145c (2008)

D.J.Dean

Progress and Challenges in the Theory of Nuclei

NUCLEAR STRUCTURE Z=2; ¹⁶O, ⁴⁰Ca; calculated ground state binding energies using coupled-cluster theory for three-body forces.

doi: 10.1016/j.nuclphysa.2008.02.235
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2008HA30      Phys.Rev.Lett. 101, 092502 (2008)

G.Hagen, T.Papenbrock, D.J.Dean, M.Hjorth-Jensen

Medium-Mass Nuclei from Chiral Nucleon-Nucleon Interactions

NUCLEAR STRUCTURE ⁴He, ¹⁶O, ⁴⁰Ca, ⁴⁸Ca, ⁴⁸Ni; calculated binding energies, radii and densities; spherical coupled-cluster theory; bare chiral NN-interaction;

doi: 10.1103/PhysRevLett.101.092502
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2007HA33      Phys.Rev. C 76, 034302 (2007)

G.Hagen, T.Papenbrock, D.J.Dean, A.Schwenk, A.Nogga, M.Wloch, P.Piecuch

Coupled-cluster theory for three-body Hamiltonians

doi: 10.1103/PhysRevC.76.034302
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2007HA44      Phys.Rev. C 76, 044305 (2007)

G.Hagen, D.J.Dean, M.Hjorth-Jensen, T.Papenbrock, A.Schwenk

Benchmark calculations for ³H, ⁴He, ¹⁶O, and ⁴⁰Ca with ab initio coupled-cluster theory

NUCLEAR STRUCTURE ³H, ⁴He, ¹⁶O, ⁴⁰Ca; calculated CCSD and CCSD(T) energies. Coupled-cluster theory.

doi: 10.1103/PhysRevC.76.044305
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2007JO09      Acta Phys.Pol. B38, 1205 (2007)

K.L.Jones, A.S.Adekola, D.W.Bardayan, J.C.Blackmon, K.Y.Chae, K.Chipps, J.A.Cizewski, D.J.Dean, L.Erikson, R.P.Fitzgerald, A.L.Gaddis, U.Greife, C.Harlin, R.Hatarik, J.A.Howard, M.S.Johnson, R.L.Kozub, J.F.Liang, R.J.Livesay, Z.Ma, B.H.Moazen, P.D.O'Malley, C.D.Nesaraja, S.D.Pain, N.P.Patterson, S.V.Paulauskas, D.Shapira, J.F.Shriner Jr, D.J.Sissom, M.S.Smith, T.P.Swan, J.S.Thomas

Single Neutron Transfer Experiments Close to the r-Process Path

NUCLEAR REACTIONS ²H(⁸²Ge, p), E=4 MeV/nucleon; ²H(⁸⁴Se, p), E=4.5 MeV/nucleon; ²H(¹³²Sn, p), E=4.77 MeV/nucleon; measured Ep and angular distributions. ⁸³Ge, ⁸⁵Se, ¹³³Sn deduced levels, J, π and spectroscopic factors. Compared results to model calculations.

2007OZ03      Phys.Rev. C 75, 064307 (2007)

C.Ozen, K.Langanke, G.Martinez-Pinedo, D.J.Dean

Parity-projected shell model Monte Carlo level densities for fp-shell nuclei

NUCLEAR STRUCTURE ^58,62,65,66Fe, ^58,59Ni; calculated level densities, occupation numbers and pairing strength for neutrons using shell model monte carlo method.

doi: 10.1103/PhysRevC.75.064307
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2007TH15      Phys.Rev. C 76, 044302 (2007)

J.S.Thomas, G.Arbanas, D.W.Bardayan, J.C.Blackmon, J.A.Cizewski, D.J.Dean, R.P.Fitzgerald, U.Greife, C.J.Gross, M.S.Johnson, K.L.Jones, R.L.Kozub, J.F.Liang, R.J.Livesay, Z.Ma, B.H.Moazen, C.D.Nesaraja, D.Shapira, M.S.Smith, D.W.Visser

Single-neutron excitations in neutron-rich ⁸³Ge and ⁸⁵Se

NUCLEAR REACTIONS ²H(⁸²Ge, p), (⁸⁴Se, p), E=330, 380 MeV; measured Ep, Ip, recoil-proton-coin, angular distributions; deduced asymptotic normalization coefficients, spectroscopic factors. ⁸³Ge, ⁸⁵Se; deduced levels, J, π, angular momentum using DWBA analysis. ⁸²Ge, ⁸⁴Se(n, γ), E=0-1 MeV; calculated cross sections.

doi: 10.1103/PhysRevC.76.044302
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1577. Data from this article have been entered in the XUNDL database. For more information, click here.

2006BO17      Phys.Rev. C 74, 014303 (2006)

P.Bozek, D.J.Dean, H.Muther

Correlations and effective interactions in nuclear matter

doi: 10.1103/PhysRevC.74.014303
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2006GO22      Phys.Rev. C 74, 024310 (2006)

J.R.Gour, P.Piecuch, M.Hjorth-Jensen, M.Wloch, D.J.Dean

Coupled-cluster calculations for valence systems around ¹⁶O

NUCLEAR STRUCTURE ¹⁵N, ^15,17O, ¹⁷F; calculated excited states energies, configurations. Equation-of-motion coupled-cluster methods, comparison with data.

doi: 10.1103/PhysRevC.74.024310
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2006OZ01      Phys.Rev. C 73, 014302 (2006)

C.Ozen, D.J.Dean

Shell model Monte Carlo method in the pn-formalism and applications to the Zr and Mo isotopes

NUCLEAR STRUCTURE ^{90,92,94,96,98,100,102,104}Zr, ^{92,94,96,98,100,102,104,106}Mo; calculated ground-state and binding energies, B(E2), pairing properties. Shell model Monte Carlo method.

doi: 10.1103/PhysRevC.73.014302
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2006ST10      Phys.Rev. C 73, 061304 (2006)

G.Stoitcheva, W.Satula, W.Nazarewicz, D.J.Dean, M.Zalewski, H.Zdunczuk

High-spin intruder states in the fp-shell nuclei and isoscalar proton-neutron correlations

NUCLEAR STRUCTURE ^40,42,44Ca, ^42,43,44,45Sc, ^44,45,46Ti, ^46,47V; analyzed level energies, configurations for fully-aligned, high-spin isomers; deduced role of proton-neutron correlations. Density functional theory, self-consistent Hartree-Fock approach, Skyrme energy functional.

doi: 10.1103/PhysRevC.73.061304
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2005DE13      Nucl.Phys. A752, 299c (2005)

D.J.Dean, J.R.Gour, G.Hagen, M.Hjorth-Jensen, K.Kowalski, T.Papenbrock, P.Piecuch, M.Wloch

Nuclear Structure Calculations with Coupled Cluster Methods from Quantum Chemistry

NUCLEAR STRUCTURE ⁴He, ¹⁶O; calculated ground and excited states energies. Coupled cluster approximation.

doi: 10.1016/j.nuclphysa.2005.02.041
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2005GA22      Phys.Rev.Lett. 95, 022502 (2005); Erratum Phys.Rev.Lett. 96, 189901 (2006)

A.Gade, D.Bazin, A.Becerril, C.M.Campbell, J.M.Cook, D.J.Dean, D.-C.Dinca, T.Glasmacher, G.W.Hitt, M.E.Howard, W.F.Mueller, H.Olliver, J.R.Terry, K.Yoneda

Quadrupole Deformation of the Self-Conjugate Nucleus ⁷²Kr

NUCLEAR REACTIONS ¹⁹⁷Au(⁷²Kr, ⁷²Kr'), E=69.3 MeV/nucleon; ¹⁹⁷Au(⁷⁸Kr, ⁷⁸Kr'), E=57.4 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation. ^72,78Kr deduced excitation B(E2), quadrupole moments, deformation. Comparison with shell-model Monte Carlo predictions.

doi: 10.1103/PhysRevLett.95.022502
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2005HI18      Nucl.Phys. A758, 31c (2005)

W.R.Hix, O.E.B.Messer, A.Mezzacappa, J.Sampaio, K.Langanke, G.Martinez-Pinedo, M.Liebendorfer, D.J.Dean

Nuclear electron capture in core collapse supernovae

doi: 10.1016/j.nuclphysa.2005.05.010
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2005JU02      Nucl.Phys. A747, 87 (2005)

A.Juodagalvis, K.Langanke, G.Martinez-Pinedo, W.R.Hix, D.J.Dean, J.M.Sampaio

Neutral-current neutrino-nucleus cross sections for A ∼ 50-65 nuclei

NUCLEAR REACTIONS ^{50,51,52,53,54,55,56,57,58,59,60}Mn, ^{52,53,54,55,56,57,58,59,60,61}Fe, ^{54,55,56,57,58,59,60,61,62,63}Co, ^{56,57,58,59,60,61,62,63,64}Ni(ν, ν'), E=0-50 MeV; calculated neutral-current inelastic σ, neutrino spectra.

NUCLEAR STRUCTURE ^{50,51,52,53,54,55,56,57,58,59,60}Mn, ^{52,53,54,55,56,57,58,59,60,61}Fe, ^{54,55,56,57,58,59,60,61,62,63}Co, ^{56,57,58,59,60,61,62,63,64}Ni; calculated Gamow-Teller strength distributions.

doi: 10.1016/j.nuclphysa.2004.09.005
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2005JU11      Phys.Rev. C 72, 024306 (2005)

A.Juodagalvis, D.J.Dean

Gamow-Teller GT₊ distributions in nuclei with mass A=90-97

NUCLEAR STRUCTURE ⁹⁶Pd, ⁹⁶Rh, ⁹⁶Ru, ⁹⁶Tc, ⁹⁶Mo, ⁹⁶Nb, ⁹⁶Zr, ⁹⁶Y, ⁹⁶Sr; calculated levels, J, π. Comparison with data.

RADIOACTIVITY ^{92,93,94,95,96,97}Nb, ^{93,94,95,96,97}Mo, ^{93,94,95,96,97}Tc, ^94,95Ru, ^95,96Rh, ^96,97Pd, ⁹⁷Ag, ⁹⁸Cd(β⁺); calculated Gamow-Teller strength distributions. Comparisons with data.

doi: 10.1103/PhysRevC.72.024306
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2005LA22      Nucl.Phys. A757, 360 (2005)

K.Langanke, D.J.Dean, W.Nazarewicz

Thermal properties of N = 40 isotones

NUCLEAR STRUCTURE ⁶⁸Ni, ⁷⁰Zn, ⁷²Ge, ⁸⁰Zr; calculated B(E2) distributions, pairing strengths, thermodynamic quantities, deformation effects. Shell-model Monte Carlo approach.

doi: 10.1016/j.nuclphysa.2005.04.023
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2005PA44      J.Phys.(London) G31, S1377 (2005)

T.Papenbrock, D.J.Dean

Density matrix renormalization group and wavefunction factorization for nuclei

NUCLEAR STRUCTURE ⁷⁶Ge, ⁷⁶Se, ⁷⁸Kr; calculated ground and excited states energies. Density matrix renormalization group.

doi: 10.1088/0954-3899/31/8/016
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2005SH24      Phys.Rev. C 71, 064323 (2005)

J.Shergur, D.J.Dean, D.Seweryniak, W.B.Walters, A.Wohr, P.Boutachkov, C.N.Davids, I.Dillmann, A.Juodagalvis, G.Mukherjee, S.Sinha, A.Teymurazyan, I.Zartova

Identification of low-spin states in ¹¹¹Sb: Test of spin-orbit coupling in light nuclei

RADIOACTIVITY ¹¹¹Te(β⁺), (EC) [from ⁵⁸Ni(⁵⁶Fe, n2p)]; measured Eγ, Iγ, γγ-coin, T_1/2. ¹¹¹Sb deduced levels, J, π. Mass separator, comparisons with shell-model predictions and level systematics in neighboring isotopes.

doi: 10.1103/PhysRevC.71.064323
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2005SH53      Eur.Phys.J. A 25, Supplement 1, 121 (2005)

J.Shergur, N.Hoteling, A.Wohr, W.B.Walters, O.Arndt, B.A.Brown, C.N.Davids, D.J.Dean, K.-L.Kratz, B.Pfeiffer, D.Seweryniak, and the ISOLDE Collaboration

New level information on Z = 51 isotopes, ¹¹¹Sb₆₀ and ^{134, 135}Sb_{83, 84}

RADIOACTIVITY ¹¹¹Te(β⁺) [from ⁵⁸Ni(⁵⁶Fe, 2pn)]; ¹³⁵Sn(β^-), (β^-n) [from U(p, F), E=1.4 GeV]; measured Eγ, Iγ, γγ-coin following decay of mass-separated sources. ^111,134,135Sb deduced levels, J, π. Comparison with model calculations.

doi: 10.1140/epjad/i2005-06-071-7
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2005ST36      Eur.Phys.J. A 25, Supplement 1, 509 (2005)

G.Stoitcheva, W.Nazarewicz, D.J.Dean

Shell model analysis of intruder states and high- K isomers in the fp shell

NUCLEAR STRUCTURE ^40,42,44Ca, ^42,44,45Sc, ^44,45,46Ti, ^46,47V; calculated energies of maximally aligned states. ⁴⁴Sc calculated high-spin levels, J, π, proton and neutron occupation numbers. Shell model analysis, comparison with data.

doi: 10.1140/epjad/i2005-06-207-9
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2005WL01      Phys.Rev.Lett. 94, 212501 (2005)

M.Wloch, D.J.Dean, J.R.Gour, M.Hjorth-Jensen, K.Kowalski, T.Papenbrock, P.Piecuch

Ab-Initio Coupled-Cluster Study of ¹⁶O

NUCLEAR STRUCTURE ¹⁶O; calculated matter density, charge radius, charge form factor, excited states energies. Coupled-cluster singles and doubles approach, comparison with data.

doi: 10.1103/PhysRevLett.94.212501
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2005WL02      J.Phys.(London) G31, S1291 (2005)

M.Wloch, J.R.Gour, P.Piecuch, D.J.Dean, M.Hjorth-Jensen, T.Papenbrock

Coupled-cluster calculations for ground and excited states of closed- and open-shell nuclei using methods of quantum chemistry

NUCLEAR STRUCTURE ^15,16,17O; calculated ground and excited states energies, configurations. Coupled-cluster methods.

doi: 10.1088/0954-3899/31/8/007
Citations: PlumX Metrics

2005WL03      Eur.Phys.J. A 25, Supplement 1, 485 (2005)

M.Wloch, D.J.Dean, J.R.Gour, P.Piecuch, M.Hjorth-Jensen, T.Papenbrock, K.Kowalski

Ab initio coupled cluster calculations for nuclei using methods of quantum chemistry

NUCLEAR STRUCTURE ¹⁶O; calculated ground and excited states energies. Coupled cluster methods.

doi: 10.1140/epjad/i2005-06-062-8
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2004BE06      Nucl.Phys. A731, 381 (2004)

A.Belic, D.J.Dean, M.Hjorth-Jensen

Pairing correlations and transitions in nuclear systems

doi: 10.1016/j.nuclphysa.2003.11.050
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2004DE21      Phys.Rev. C 69, 054320 (2004)

D.J.Dean, M.Hjorth-Jensen

Coupled-cluster approach to nuclear physics

NUCLEAR STRUCTURE ⁴He, ¹⁶O; calculated ground-state energies. Coupled-cluster approach, no-core G-matrix interaction, many-body perturbation theory.

doi: 10.1103/PhysRevC.69.054320
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2004DE35      Prog.Part.Nucl.Phys. 53, 419 (2004)

D.J.Dean, T.Engeland, M.Hjorth-Jensen, M.P.Kartamyshev, E.Osnes

Effective interactions and the nuclear shell-model

doi: 10.1016/j.ppnp.2004.05.001
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2004DE52      Nucl.Phys. A746, 130c (2004)

D.J.Dean

Initial results from coupled-cluster theory

NUCLEAR STRUCTURE ¹⁶O; calculated ground-state energy. Coupled-cluster theory, other models compared.

doi: 10.1016/j.nuclphysa.2004.09.021
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2004KO17      Phys.Rev.Lett. 92, 132501 (2004)

K.Kowalski, D.J.Dean, M.Hjorth-Jensen, T.Papenbrock, P.Piecuch

Coupled Cluster Calculations of Ground and Excited States of Nuclei

NUCLEAR STRUCTURE ⁴He, ¹⁶O; calculated ground and excited states energies. Coupled cluster approach.

doi: 10.1103/PhysRevLett.92.132501
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2004PA04      Phys.Rev. C 69, 024312 (2004)

T.Papenbrock, A.Juodagalvis, D.J.Dean

Solution of large scale nuclear structure problems by wave function factorization

NUCLEAR STRUCTURE ⁴He, ^24,28Mg, ^26,28Al, ⁶⁰Fe, ⁵⁶Ni; calculated level energies. Wave function factorization, comparison with other truncation methods.

doi: 10.1103/PhysRevC.69.024312
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2003DE13      Rev.Mod.Phys. 75, 607 (2003)

D.J.Dean, M.Hjorth-Jensen

Pairing in nuclear systems: from neutron stars to finite nuclei

doi: 10.1103/RevModPhys.75.607
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2003GU12      Phys.Rev. C 68, 034311 (2003)

M.Guttormsen, R.Chankova, M.Hjorth-Jensen, J.Rekstad, S.Siem, A.Schiller, D.J.Dean

Free energy and criticality in the nucleon pair breaking process

NUCLEAR STRUCTURE ^171,172Yb, ^166,167Er, ^161,162Dy, ^148,149Sm; analyzed level densities; deduced Helmholtz free energy, other thermodynamic quantities, continuous nucleon pair breaking.

doi: 10.1103/PhysRevC.68.034311
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2003LA05      Phys.Rev. C 67, 044314 (2003)

K.Langanke, J.Terasaki, F.Nowacki, D.J.Dean, W.Nazarewicz

How magic is the magic ⁶⁸Ni nucleus?

NUCLEAR STRUCTURE ^{56,58,60,62,64,66,68,70,72,74,76,78,80}Ni; calculated 2⁺ level energies, B(E2) strength distributions; deduced shell features. Shell model Monte Carlo, quasiparticle RPA, large-scale diagonalization shell model.

doi: 10.1103/PhysRevC.67.044314
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2003LA18      Nucl.Phys. A728, 109 (2003)

K.Langanke, D.J.Dean, W.Nazarewicz

Shell model Monte Carlo studies of nuclei in the A ∼ 80 mass region

NUCLEAR STRUCTURE ^72,74,76Kr, ^76,78,80Sr, ^80,82,84Zr; calculated ground-state configurations, deformations, transitions B(E2). Shell model Monte Carlo approach.

doi: 10.1016/j.nuclphysa.2003.08.024
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2003MA45      Nucl.Phys. A718, 452c (2003)

G.Martinez-Pinedo, D.J.Dean, K.Langanke, J.Sampaio

Neutrino-nucleus Interactions in Core-collapse Supernova

NUCLEAR REACTIONS ^60,62Ni, ^59,61Fe, ^60,62Co(ν, X), (ν-bar, X), E=0-50 MeV; calculated absorption σ vs temperature, chemical potential. ⁵⁶Fe, ⁵⁹Co(ν, ν'), calculated inelastic σ, neutrino spectra.

doi: 10.1016/S0375-9474(03)00849-2
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2003PA16      Phys.Rev. C 67, 051303 (2003)

T.Papenbrock, D.J.Dean

Factorization of shell-model ground states

NUCLEAR STRUCTURE ^20,22Ne, ²⁴Mg, ⁴⁴Ti, ⁴⁸Cr, ⁵²Fe, ⁵⁶Ni; calculated ground and excited states energies. Ground-state factorization, variational principle.

doi: 10.1103/PhysRevC.67.051303
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2003SA32      Nucl.Phys. A718, 440c (2003)

J.M.Sampaio, K.Langanke, G.Martinez-Pinedo, E.Kolbe, D.J.Dean

Electron capture rates for core collapse supernovae

NUCLEAR REACTIONS ¹H, ⁷⁰Cu, ⁷²Zn, ⁷⁶Ga, ⁹³Kr(e, ν), E=stellar; calculated neutrino energies, capture rates vs chemical potential, temperature. Implications for supernovae core collapse discussed.

doi: 10.1016/S0375-9474(02)00832-7
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2003ST22      Phys.Rev. C 68, 054312 (2003)

M.V.Stoitsov, J.Dobaczewski, W.Nazarewicz, S.Pittel, D.J.Dean

Systematic study of deformed nuclei at the drip lines and beyond

NUCLEAR STRUCTURE ⁴He, ⁶Be, ¹⁰C, ¹⁴O, ¹⁸Ne, ²⁰Mg, ²⁴Si, ²⁸S, ³²Ar, ³⁶Ca, ⁴⁰Ti, ⁴⁴Cr, ⁴⁶Fe, ⁵²Ni, ⁵⁶Zn, ⁶⁰Ge, ⁶⁴Se, ⁷⁰Kr, ⁷²Sr, ⁷⁶Zr, ⁸²Mo, ⁸⁶Ru, ⁹⁰Pd, ⁹⁴Cd, ¹⁰²Sn, ¹⁰⁸Te, ¹¹²Xe, ¹¹⁶Ba, ¹¹⁸Ce, ¹²⁴Nd, ¹³⁰Sm, ¹³⁴Gd, ¹³⁸Dy, ¹⁴⁴Er, ¹⁴⁸Yb, ¹⁵²Hf, ¹⁵⁸W, ¹⁶²Os, ¹⁶⁸Pt, ¹⁷²Hg, ¹⁸²Pb; calculated deformations, two-proton separation energies, pair gaps. ⁸He, ¹²Be, ²²C, ²⁶O, ³⁴Ne, ⁴²Mg, ⁴⁶Si, ⁵²S, ⁵⁸Ar, ⁶⁸Ca, ⁷²Ti, ⁸⁰Cr, ⁸⁴Fe, ⁸⁸Ni, ¹⁰⁰Zn, ¹⁰⁸Ge, ¹¹⁴Se, ¹¹⁸Kr, ¹²⁰Sr, ¹²⁴Zr, ¹³²Mo, ¹⁴²Ru, ¹⁵⁰Pd, ¹⁶⁸Cd, ¹⁷⁴Sn, ¹⁷⁶Te, ¹⁷⁸Xe, ¹⁸²Ba, ¹⁸⁶Ce, ¹⁸⁸Nd, ²⁰⁴Sm, ²⁰⁸Gd, ²¹⁶Dy, ²²²Er, ²³⁰Yb, ²⁵⁴Hf, ²⁵⁶W, ²⁵⁸Os, ²⁶⁰Pt, ²⁶²Hg, ²⁶⁶Pb; calculated deformations, two-neutron separation energies, pair gaps. ^30,32,34Ne, ^38,40,42Mg, ^48,50,52S, ^96,98,100Zn; calculated binding energy vs deformation. HFB calculations, transformed harmonic-oscillator basis.

doi: 10.1103/PhysRevC.68.054312
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2002DE32      Nucl.Phys. A704, 264c (2002)

D.J.Dean

Phases: From nuclei to quantum dots

doi: 10.1016/S0375-9474(02)00786-8
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2002DE49      Phys.Rev. C66, 045802 (2002)

D.J.Dean, K.Langanke, J.M.Sampaio

Temperature dependence of the symmetry energy

NUCLEAR STRUCTURE ^56,59Mn, ⁵⁶Cr, ^56,59Fe, ⁵⁶Co, ^56,59,66Ni, ^59,61,63,64Cu, ⁶⁶Zn, ^61,63,64Ga; calculated temperature dependence of symmetry energy. Shell model Monte Carlo approach.

doi: 10.1103/PhysRevC.66.045802
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2002LI04      Phys.Rev. C65, 021302 (2002)

M.Lipoglavsek, C.Baktash, M.P.Carpenter, D.J.Dean, T.Engeland, C.Fahlander, M.Hjorth-Jensen, R.V.F.Janssens, A.Likar, J.Nyberg, E.Osnes, S.D.Paul, A.Piechaczek, D.C.Radford, D.Rudolph, D.Seweryniak, D.G.Sarantites, M.Vencelj, C.-H.Yu

¹⁰⁰Sn Core Excitations in ¹⁰²In

NUCLEAR REACTIONS ⁵⁰Cr(⁵⁸Ni, npα), E=225 MeV; measured Eγ, Iγ, γγ-, (charged particle)γ-, (neutron)γ-coin. ¹⁰²In deduced levels, possible J, π, configurations. Gammasphere, Microball arrays. Comparison with large-scale shell model calculations.

doi: 10.1103/PhysRevC.65.021302
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2002LI33      Phys.Rev. C65, 051307 (2002)

M.Lipoglavsek, C.Baktash, M.P.Carpenter, D.J.Dean, T.Engeland, C.Fahlander, M.Hjorth-Jensen, R.V.F.Janssens, A.Likar, J.Nyberg, E.Osnes, S.D.Paul, A.Piechaczek, D.C.Radford, D.Rudolph, D.Seweryniak, D.G.Sarantites, M.Vencelj, C.H.Yu

Excited States of the Proton Emitter ¹⁰⁵Sb

NUCLEAR REACTIONS ⁵⁰Cr(⁵⁸Ni, 2np), E=225 MeV; measured Eγ, Iγ, γγ-, (charged particle)γ-, (neutron)γ-coin. ¹⁰⁵Sb deduced levels, possible J, π. Gammasphere, Microball arrays. Comparison with shell model results.

doi: 10.1103/PhysRevC.65.051307
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2002LI45      Phys.Rev. C66, 011302 (2002)

M.Lipoglavsek, C.Baktash, J.Blomqvist, M.P.Carpenter, D.J.Dean, T.Engeland, C.Fahlander, M.Hjorth-Jensen, R.V.F.Janssens, A.Likar, J.Nyberg, E.Osnes, S.D.Paul, A.Piechaczek, D.C.Radford, D.Rudolph, D.Seweryniak, D.G.Sarantites, M.Vencelj, C.-H.Yu

Breakup of the Doubly Magic ¹⁰⁰Sn Core

NUCLEAR REACTIONS ⁵⁰Cr(⁵⁸Ni, xnypzα)⁹⁹Cd/¹⁰¹In, E=225 MeV; measured Eγ, Iγ, γγ-, (charged particle)γ-, (neutron)γ-coin; deduced relative yields. ⁹⁹Cd, ¹⁰¹In deduced high-spin levels, J, π, configurations, core excitation. Gammasphere, Microball arrays, large-scale shell model calculations.

doi: 10.1103/PhysRevC.66.011302
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2002RE28      Phys.Rev. C66, 024308 (2002)

J.J.Ressler, W.B.Walters, C.N.Davids, D.J.Dean, A.Heinz, M.Hjorth-Jensen, D.Seweryniak, J.Shergur

First observation of ¹⁰⁹Te β⁺ and electron capture decay to levels of ¹⁰⁹Sb

RADIOACTIVITY ¹⁰⁹Te(β⁺), (EC) [from ⁵⁴Fe(⁵⁸Ni, n2p)]; measured Eγ, Iγ, γγ-coin, T_1/2. ¹⁰⁹Sb deduced levels, J, π. Comparison with shell model predictions, level systematics in neighboring isotopes.

doi: 10.1103/PhysRevC.66.024308
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2001DE07      Nucl.Phys. A682, 194c (2001)

D.J.Dean

Robust Physics from Random Interactions

doi: 10.1016/S0375-9474(00)00639-4
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2001DE29      Nucl.Phys. A688, 189c (2001)

D.J.Dean

Effect of Nuclear Structure on Type Ia Supernova Nucleosynthesis

doi: 10.1016/S0375-9474(01)00695-9
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2001LA05      Phys.Rev. C63, 032801 (2001)

K.Langanke, E.Kolbe, D.J.Dean

Unblocking of the Gamow-Teller Strength in Stellar Electron Capture on Neutron-Rich Germanium Isotopes

NUCLEAR REACTIONS ^68,72,76Ge(e, ν), E=12-30 MeV; calculated electron capture σ in stellar medium as a function of temperature. Shell Model Monte Carlo calculations, comparison with independent-particle model calculations, effects on core-collapsed supernovae discussed.

NUCLEAR STRUCTURE ^{68,70,72,74,76}Ge; calculated proton and neutron occupation percentages for nuclei in stellar medium as a function of temperature.

doi: 10.1103/PhysRevC.63.032801
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2001LI12      Nucl.Phys. A682, 399c (2001)

M.Lipoglavsek, C.Baktash, M.P.Carpenter, D.J.Dean, C.Fahlander, M.Hjorth-Jensen, R.V.F.Janssens, A.Likar, J.Nyberg, S.D.Paul, A.Piechaczek, D.C.Radford, D.Rudolph, D.Seweryniak, D.G.Sarantites, M.Vencelj, C.H.Yu

First Observation of Excitation Across the ¹⁰⁰Sn Core

NUCLEAR REACTIONS ⁵⁰Cr(⁵⁸Ni, xnypzα)⁹⁵Rh/⁹⁶Pd/⁹⁷Pd/⁹⁸Pd/¹⁰⁰Pd/⁹⁸Ag/⁹⁹Ag/¹⁰⁰Ag/¹⁰¹Ag/¹⁰³Ag/⁹⁸Cd/⁹⁹Cd/¹⁰⁰Cd/¹⁰¹Cd/¹⁰²Cd/¹⁰³Cd/¹⁰⁴Cd/¹⁰¹In/¹⁰²In/¹⁰³In/¹⁰⁴In/¹⁰⁵In/¹⁰²Sn/¹⁰³Sn/¹⁰⁴Sn/¹⁰⁵Sn/¹⁰⁶Sn/¹⁰⁵Sb/¹⁰⁶Sb, E=225 MeV; measured γγ-, (charged particle)γ-, (neutron)γ-coin; deduced relative yields. Gammasphere, Microball arrays.

doi: 10.1016/S0375-9474(00)00666-7
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2001MA09      Phys.Rev. C63, 024902 (2001)

D.E.Malov, A.S.Umar, D.J.Ernst, D.J.Dean

Relativistic Heavy-Ion Collisions in the Dynamical String-Parton Model

NUCLEAR REACTIONS S, ¹⁹⁷Au(p, X), E=200 GeV; S(S, X), E=200 GeV/nucleon; Pb(Pb, X), E=156 GeV/nucleon; calculated fragment rapidity distributions. Dynamical string-parton model, comparisons with data.

doi: 10.1103/PhysRevC.63.024902
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2000JO01      Phys.Rev. C61, 014311 (2000)

C.W.Johnson, G.F.Bertsch, D.J.Dean, I.Talmi

Generalized Seniority from Random Hamiltonians

NUCLEAR STRUCTURE ^20,22,24O, ^24,26,28Mg, ^44,46,48Ca; calculated pairing features, fractional pair-transfer collectivity. Random two-body matrix elements.

doi: 10.1103/PhysRevC.61.014311
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2000JO06      Phys.Rev. C61, 044327 (2000)

C.W.Johnson, D.J.Dean

Sum Rules Regarding the Sign Problem in Monte Carlo Shell Model Calculations

doi: 10.1103/PhysRevC.61.044327
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2000MA30      Astrophys.J.Suppl.Ser. 126, 493 (2000)

G.Martinez-Pinedo, K.Langanke, D.J.Dean

Competition of Electron Capture and Beta-Decay Rates in Supernova Collapse

RADIOACTIVITY ^56,58,59Ni, ^54,55,56Fe, ^{55,56,57,58,59,60}Co, ^53,54,56Mn(EC); ^{56,58,59,60,61}Fe, ⁵⁴Cr, ⁵²Ti, ^58,60,61,63Co, ^54,56,59Mn, ⁵⁰Sc(β^-); calculated decay rates in supernova environment. Shell model, other calculations compared.

2000WH01      Phys.Rev. C61, 034303 (2000)

J.A.White, S.E.Koonin, D.J.Dean

Shell Model Monte Carlo Investigation of Rare Earth Nuclei

NUCLEAR STRUCTURE ^{152,153,154,156,162}Dy; calculated rotational bands energy, spin, quadrupole moments, pairing energy, B(E2), deformation. ^154,162Dy, ¹⁴⁰Ba; calculated level densities, heat capacity. Shell model Monte Carlo approach, comparison of exact solution and static path approximation.

doi: 10.1103/PhysRevC.61.034303
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1999BA89      Phys.Rev. C60, 045202 (1999)

T.Barnes, N.Black, D.J.Dean, E.S.Swanson

BB Intermeson Potentials in the Quark Model

doi: 10.1103/PhysRevC.60.045202
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1999DE07      Phys.Rev. C59, 2474 (1999)

D.J.Dean, M.T.Ressell, M.Hjorth-Jensen, S.E.Koonin, K.Langanke, A.P.Zuker

Shell-Model Monte Carlo Studies of Neutron-Rich Nuclei in the 1s-0d-1p-0f Shells

NUCLEAR STRUCTURE ^22,32Mg, ²⁰Ne, ^36,46Ar, ^40,42,44S, ⁴²Si, ⁴⁴Ti; calculated binding energies, levels J, π, B(E2), Gamow-Teller strength, configurations. Shell model Monte Carlo calculations.

doi: 10.1103/PhysRevC.59.2474
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1999DE41      Phys.Rev. C60, 054306 (1999)

D.J.Dean, S.E.Koonin

Calculation of Exciton Densities in the Shell-Model Monte Carlo Method

NUCLEAR STRUCTURE ⁴⁰Ca; calculated particle-hole level densities, residual interaction effects. Shell-model Monte Carlo method.

doi: 10.1103/PhysRevC.60.054306
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1999MA17      Phys.Rev. C59, 2289 (1999)

D.E.Malov, A.S.Umar, D.J.Ernst, D.J.Dean

Hadronic Structure Functions as Distributions of Classical Strings

doi: 10.1103/PhysRevC.59.2289
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1999MA74      Int.J.Mod.Phys. E8, 299 (1999)

D.E.Malov, A.S.Umar, D.J.Ernst, D.J.Dean

Particle Identification in the Dynamical String-Parton Model of Relativistic Heavy-Ion Collisions

doi: 10.1142/S0218301399000215
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1999RE12      Phys.Rev. C60, 014316 (1999)

P.-G.Reinhard, D.J.Dean, W.Nazarewicz, J.Dobaczewski, J.A.Maruhn, M.R.Strayer

Shape Coexistence and the Effective Nucleon-Nucleon Interaction

NUCLEAR STRUCTURE ^30,32,34Mg, ^26,28,30,32Ne, ^38,40,42,44S, ^{80,82,84,92,94,96,98,100}Zr; calculated potential energy surfaces, neutron shell structure; deduced shape coexistence mechanisms. Self-consistent Hartree-Fock, shell model approaches.

doi: 10.1103/PhysRevC.60.014316
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1999RU02      Phys.Rev.Lett. 82, 3763 (1999)

D.Rudolph, C.Baktash, M.J.Brinkman, E.Caurier, D.J.Dean, M.Devlin, J.Dobaczewski, P.-H.Heenen, H.-Q.Jin, D.R.LaFosse, W.Nazarewicz, F.Nowacki, A.Poves, L.L.Riedinger, D.G.Sarantites, W.Satula, C.-H.Yu

Rotational Bands in the Doubly Magic Nucleus ⁵⁶Ni

NUCLEAR REACTIONS ²⁸Si(³⁶Ar, 2α), E=143 MeV; measured Eγ, Iγ, γγ-, (charged particle)γ-coin. ⁵⁶Ni deduced high-spin levels, J, π, configurations, possible proton decay from rotational band. Gammasphere, microball arrays. Cranked mean-field calculations.

doi: 10.1103/PhysRevLett.82.3763
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1998DE31      Phys.Rev. C58, 536 (1998)

D.J.Dean, K.Langanke, L.Chatterjee, P.B.Radha, M.R.Strayer

Electron Capture on Iron Group Nuclei

NUCLEAR REACTIONS ^55,57,59Co, ^50,52Cr, ^54,55,56,58Fe, ⁴⁵Sc, ⁵¹V, ⁵⁵Mn, ^56,58,60,62Ni, ^48,50Ti, ⁶⁴Zn(e, ν), E < 30 MeV; calculated capture σ; deduced Gamow-Teller contributions to presupernova electron capture rates. Shell model Monte Carlo approach.

doi: 10.1103/PhysRevC.58.536
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1998JO04      Phys.Rev.Lett. 80, 2749 (1998)

C.W.Johnson, G.F.Bertsch, D.J.Dean

Orderly Spectra from Random Interactions

doi: 10.1103/PhysRevLett.80.2749
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1997DE19      Phys.Lett. 399B, 1 (1997)

D.J.Dean, S.E.Koonin, K.Langanke, P.B.Radha

Rotational and Pairing Properties of ⁷⁴Rb

NUCLEAR STRUCTURE ⁷⁴Rb; calculated levels, pn-correlations vs J. Cranked shell model, Monte Carlo approach.

doi: 10.1016/S0370-2693(97)00275-X
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1997KO58      Ann.Rev.Nucl.Part.Sci. 47, 463 (1997)

S.E.Koonin, D.J.Dean, K.Langanke

Results from Shell-Model Monte Carlo Studies

doi: 10.1146/annurev.nucl.47.1.463
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1997LA04      Nucl.Phys. A613, 253 (1997)

K.Langanke, D.J.Dean, S.E.Koonin, P.B.Radha

Pairing Correlations in N ∼ Z pf-Shell Nuclei

NUCLEAR STRUCTURE ^52,54,56,58Fe, ⁴⁸Cr, ⁵⁰Mn, ⁶⁰Zn, ⁵⁶Ni, ⁵⁸Cu, ⁵⁴Co; calculated pairing corrections. ⁵²Fe, ⁵⁰Mn; calculated B(λ), thermal properties. Shell model Monte Carlo calculations.

doi: 10.1016/S0375-9474(96)00442-3
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1997RA34      Phys.Rev. C56, 3079 (1997)

P.B.Radha, D.J.Dean, S.E.Koonin, K.Langanke, P.Vogel

Gamow-Teller Strength Distributions in fp-Shell Nuclei

NUCLEAR STRUCTURE ⁴⁸Ti, ⁵¹V, ⁵⁵Mn, ⁵⁹Co, ^54,56Fe, ^58,60,62,64Ni; calculated Gamow-Teller strength distributions; deduced temperature dependence. Shell model Monte Carlo technique. Astrophysical implications discussed.

doi: 10.1103/PhysRevC.56.3079
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1997RE14      Phys.Rev. C56, 535 (1997)

M.T.Ressell, D.J.Dean

Spin-Dependent Neutralino-Nucleus Scattering for A ∼ 127 Nuclei

NUCLEAR REACTIONS ¹²⁷I, ¹²⁹Xe, ¹³¹Xe, ¹²⁵Te(X, X), E not given; calculated spin structure functions for neutralino scattering; deduced uncertainty due to nuclear model. Large model-space calculations, shell model target wave functions.

NUCLEAR STRUCTURE ²³Na, ¹²⁷I, ¹²⁹Xe, ¹³¹Xe, ¹²⁵Te; calculated magnetic, quadrupole moments, spin distributions with several models. Large model space calculations, shell model target wave functions.

doi: 10.1103/PhysRevC.56.535
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1997SA36      Phys.Lett. 407B, 103 (1997)

W.Satula, D.J.Dean, J.Gary, S.Mizutori, W.Nazarewicz

On the Origin of the Wigner Energy

NUCLEAR STRUCTURE A=24-64; analyzed Wigner energy coefficient in N=Z nuclei. ²⁴Mg, ⁴⁸Cr; calculated binding energy displacement; deduced contribution from neutron-proton pairing interactions.

doi: 10.1016/S0370-2693(97)00711-9
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1996AL26      Phys.Rev.Lett. 77, 1444 (1996)

Y.Alhassid, G.F.Bertsch, D.J.Dean, S.E.Koonin

Shell Model Monte Carlo Studies of γ-Soft Nuclei

NUCLEAR STRUCTURE ¹²⁸Te, ¹²⁴Xe, ¹²⁴Sn; calculated shape distributions, moments of inertia, pairing correlations vs temperature, angular velocity. Shell model Monte Carlo calculations.

doi: 10.1103/PhysRevLett.77.1444
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1996DE63      Phys.Lett. 367B, 17 (1996)

D.J.Dean, S.E.Koonin, T.T.S.Kuo, K.Langanke, P.B.Radha

Complete 0(h-bar x Omega) Shell Model Carlo Calculations of ⁹⁴Ru, ⁹⁶Pd, ^96,98Cd and ¹⁰⁰Sn

NUCLEAR STRUCTURE ⁹⁴Ru, ⁹⁶Pd, ^96,98Cd, ¹⁰⁰Sn; calculated Gamow-Teller transition, masses, strengths. Shell model Monte Carlo technique.

doi: 10.1016/0370-2693(95)01446-2
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1996LA17      Nucl.Phys. A602, 244 (1996)

K.Langanke, D.J.Dean, P.B.Radha, S.E.Koonin

Temperature Dependence of Pair Correlations in Nuclei in the Iron Region

NUCLEAR STRUCTURE ^54,56,58Fe, ⁵⁶Cr; calculated Gamow-Teller, M1 transition strength distribution vs temperature, other thermal, pair correlations related features. Shell model, Monte Carlo approach.

doi: 10.1016/0375-9474(96)00139-X
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1996RA21      Phys.Rev.Lett. 76, 2642 (1996)

P.B.Radha, D.J.Dean, S.E.Koonin, T.T.S.Kuo, K.Langanke, A.Poves, J.Retamosa, P.Vogel

Shell Model Monte Carlo Method for Two-Neutrino Double Beta Decay

NUCLEAR STRUCTURE ⁴⁸Ca, ⁷⁶Ge(2β); calculated 2ν-accompanied 2β-decay matrix element vs temperature. Shell model Monte Carlo techniques.

doi: 10.1103/PhysRevLett.76.2642
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1995DE15      Phys.Rev.Lett. 74, 2909 (1995)

D.J.Dean, S.E.Koonin, K.Langanke, P.B.Radha, Y.Alhassid

Thermal Properties of ⁵⁴Fe

NUCLEAR STRUCTURE ⁵⁴Fe; calculated B(λ), isoscalar, isovector quadrupole strengths, other observables vs temperature.

doi: 10.1103/PhysRevLett.74.2909
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1995DE47      Phys.Lett. 356B, 429 (1995)

D.J.Dean, S.E.Koonin, K.Langanke, P.B.Radha

Temperature Dependence of the Nuclear Symmetry Energy

NUCLEAR STRUCTURE ^54,56,58,60Fe, ^54,56Cr, ⁵⁴Ti, ^58,60,62,64Ni, ^62,64Zn; calculated isobars internal energy difference vs temperature; deduced supernova explosion scenario related features. Monte Carlo shell model.

doi: 10.1016/0370-2693(95)00858-I
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1995LA13      Phys.Rev. C52, 718 (1995)

K.Langanke, D.J.Dean, P.B.Radha, Y.Alhassid, S.E.Koonin

Shell-Model Monte Carlo Studies of fp-Shell Nuclei

NUCLEAR STRUCTURE ^48,50,52,54Ti, ^{48,50,52,54,56}Cr, ^{52,54,56,58,60}Fe, ^{56,58,60,62,64}Ni, ^60,62,64Zn; calculated mass excesses, Coulomb, binding energies, B(λ), Gamow-Teller transition strengths, proton, neutron pairing fields expectation values. Shell model, Monte Carlo techniques.

doi: 10.1103/PhysRevC.52.718
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1994AL06      Phys.Rev.Lett. 72, 613 (1994)

Y.Alhassid, D.J.Dean, S.E.Koonin, G.Lang, W.E.Ormand

Practical Solution to the Monte Carlo Sign Problem: Realistic calculations of ⁵⁴Fe

NUCLEAR STRUCTURE ⁵⁴Fe; calculated isoscalar, isovector quadrupole, Gamow-Teller transition strengths; deduced Gamow-Teller β⁺ strength quenching, solution to Monte Carlo sign problem.

doi: 10.1103/PhysRevLett.72.613
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1994DE31      Phys.Rev.Lett. 72, 4066 (1994)

D.J.Dean, P.B.Radha, K.Langanke, Y.Alhassid, S.E.Koonin, W.E.Ormand

Complete 0(h-bar x Omega) Calculations of Gamow-Teller Strengths for Nuclei in the Iron Region

NUCLEAR STRUCTURE ^56,54Fe, ^56,58Ni, ⁵⁴Cr, ⁵⁵Mn; calculated B(λ), quadrupole moments, Gamow-Teller transition strength. Shell model, Monte Carlo techniques, different interactions.

doi: 10.1103/PhysRevLett.72.4066
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1994OR01      Phys.Rev. C49, 1422 (1994)

W.E.Ormand, D.J.Dean, C.W.Johnson, G.H.Lang, S.E.Koonin

Demonstration of the Auxiliary-Field Monte Carlo Approach for sd-Shell Nuclei

NUCLEAR STRUCTURE ^20,22,24,26Ne, ²²Na; calculated energy, quadrupole moment, other operators expectation value. ²²Ne; calculated response functions; deduced shape features. Auxiliary-field Monte Carlo approach.

doi: 10.1103/PhysRevC.49.1422
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1993DE28      Phys.Lett. 317B, 275 (1993)

D.J.Dean, S.E.Koonin, G.H.Lang, W.E.Ormand, P.B.Radha

Shell Model Monte Carlo Calculations for ¹⁷⁰Dy

NUCLEAR STRUCTURE ¹⁷⁰Dy; calculated various statitic observables, free energy coutours. Shell model Monte Carlo calculations.

doi: 10.1016/0370-2693(93)90995-T
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1993DE48      Int.J.Mod.Phys. E2, 565 (1993)

D.J.Dean, A.S.Umar, M.R.Strayer

Dynamical Calculation of Central Energy Densities in Relativistic Heavy-Ion Collisions

NUCLEAR REACTIONS O(O, X), S(S, X), E=200 GeV/nucleon; calculated central meson density vs time, thermodynamic quantities vs scaled energy density, relativistic collisions. String-parton model.

doi: 10.1142/S0218301393000224
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1991UM01      Phys.Rev. C44, 2512 (1991)

A.S.Umar, M.R.Strayer, J.-S.Wu, D.J.Dean, M.C.Guclu

Nuclear Hartree-Fock Calculations with Splines

NUCLEAR STRUCTURE ¹⁶O, ⁴⁰Ca; calculated Hartree-Fock energies, n-, p-single particle energies. Spline collocation method.

doi: 10.1103/PhysRevC.44.2512
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1989DE27      Phys.Rev. C40, 1213 (1989)

D.J.Dean, A.S.Umar, M.R.Strayer

Velocity Dependence of Prompt, High-Energy Nucleon Emission

NUCLEAR REACTIONS ¹⁶⁵Ho(⁵⁸Ni, X), E=930 MeV; ⁹³Nb(¹⁶O, X), E=204 MeV; calculated velocity, exit channel kinetic energy correlation for high energy nucleon emission. Time-dependent entrance channel formalism.

doi: 10.1103/PhysRevC.40.1213
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Note: The following list of authors and aliases matches the search parameter D.J.Dean: , D.J.DEAN