NSR Query Results
Output year order : Descending NSR database version of April 11, 2024. Search: Author = T.Burvenich Found 34 matches. 2018EB01 Eur.Phys.J. A 54, 27 (2018) C.Ebel, T.J.Burvenich, I.Mishustin Nuclear structure calculations for neutron star crusts
doi: 10.1140/epja/i2018-12454-1
2009KL01 Phys.Rev. C 79, 034310 (2009) P.Klupfel, P.-G.Reinhard, T.J.Burvenich, J.A.Maruhn Variations on a theme by Skyrme: A systematic study of adjustments of model parameters NUCLEAR STRUCTURE Z=20, 28, 50, 82, N=20, 28, 50, 82, 126; calculated correlation shifts of charge rms radii, diffraction radii, surface thicknesses, and correlation energies. 16O; calculated mean resonance frequency for GDR. 132Sn; calculated neutron level sequence. 208Pb; calculated mean resonance frequencies for GMR, GDR and GQR, neutron skin. Z=50, N=86-104; calculated uncertainties in binding energies and S(2n). Z=82, N=126-132; calculated isotope shifts. 236U; calculated fission barriers. 264Hs; calculated binding energy, Q(α). A=10-264; calculated errors in binding energies, rms radii and proton deformations. 302120; calculated total binding energy, fission barrier, Q(α). Skyrme-Hartree-Fock model. Comparison with experimental data.
doi: 10.1103/PhysRevC.79.034310
2009SH16 Nucl.Phys. A821, 106 (2009) A.Shahbaz, C.Muller, T.J.Burvenich, C.H.Keitel Laser-induced nonresonant nuclear excitation in muonic atoms NUCLEAR REACTIONS 16N, 19F, 235U(γ, X), E=1-10000 eV; calculated nuclear transition probabilities for laser-induced nuclear excitation in muonic atoms.
doi: 10.1016/j.nuclphysa.2009.02.008
2009SU06 Phys.Rev. C 79, 044306 (2009) A.Sulaksono, T.J.Burvenich, P.-G.Reinhard, J.A.Maruhn Criteria for nonlinear parameters of relativistic mean field models
doi: 10.1103/PhysRevC.79.044306
2008BU02 J.Phys.(London) G35, 025103 (2008) T.J.Burvenich, L.Guo, P.Klupfel, P.-G.Reinhard, W.Greiner Proton-neutron deformations in 16C and their consequences NUCLEAR STRUCTURE 16C; calculated deformation parameters and rms radii mean field models.
doi: 10.1088/0954-3899/35/2/025103
2007BU26 Phys.Rev. C 76, 034310 (2007) T.J.Burvenich, I.N.Mishustin, W.Greiner Nuclei embedded in an electron gas
doi: 10.1103/PhysRevC.76.034310
2007SU21 Phys.Rev. C 76, 041301 (2007) A.Sulaksono, T.Mart, T.J.Burvenich, J.A.Maruhn Instabilities of relativistic mean field models and the role of nonlinear terms
doi: 10.1103/PhysRevC.76.041301
2006BU03 Phys.Rev.Lett. 96, 142501 (2006) T.J.Burvenich, J.Evers, C.H.Keitel Nuclear Quantum Optics with X-Ray Laser Pulses NUCLEAR REACTIONS 223Ra(X-ray, X), E=low; calculated excitation rate, inversion vs time for laser-induced nuclear excitation.
doi: 10.1103/PhysRevLett.96.142501
2006BU20 Phys.Rev. C 74, 044601 (2006) T.J.Burvenich, J.Evers, C.H.Keitel Dynamic nuclear Stark shift in superintense laser fields NUCLEAR MOMENTS 16O, 168Er, 240Pu; calculated dynamic nuclear Stark shift in superintense laser fields.
doi: 10.1103/PhysRevC.74.044601
2006DU08 Nucl.Phys. A767, 81 (2006) Predictions of α-decay half-lives based on potentials from self-consistent mean-field models NUCLEAR STRUCTURE Z=52-142; A=108-446; calculated α-decay probability, T1/2. Microscopic relativistic mean-field model, comparison with data and other models.
doi: 10.1016/j.nuclphysa.2005.12.009
2005LI30 Phys.Rev.Lett. 95, 042501 (2005) Yu.A.Litvinov, T.J.Burvenich, H.Geissel, Yu.N.Novikov, Z.Patyk, C.Scheidenberger, F.Attallah, G.Audi, K.Beckert, F.Bosch, M.Falch, B.Franzke, M.Hausmann, Th.Kerscher, O.Klepper, H.-J.Kluge, C.Kozhuharov, K.E.G.Lobner, D.G.Madland, J.A.Maruhn, G.Munzenberg, F.Nolden, T.Radon, M.Steck, S.Typel, H.Wollnik Isospin Dependence in the Odd-Even Staggering of Nuclear Binding Energies NUCLEAR STRUCTURE Hf, W; compiled, analyzed neutron and proton pair-gap energies, odd-even staggering effect. Several models compared with data.
doi: 10.1103/PhysRevLett.95.042501
2005MI05 Phys.Rev. C 71, 035201 (2005) I.N.Mishustin, L.M.Satarov, T.J.Burvenich, H.Stocker, W.Greiner Antibaryons bound in nuclei NUCLEAR STRUCTURE 4He, 8Be, 16O, 208Pb; calculated antibaryon bound states energies, particle density distributions, in-medium annihilation rates. Relativistic mean-field approach.
doi: 10.1103/PhysRevC.71.035201
2004BU03 Phys.Rev. C 69, 014307 (2004); Erratum Phys.Rev. C 69, 029901 (2004) T.Burvenich, M.Bender, J.A.Maruhn, P.-G.Reinhard Systematics of fission barriers in superheavy elements NUCLEAR STRUCTURE Z=108-120; calculated fission barrier energies, related features. Relativistic mean-field and nonrelativistic Skyrme-Hartree-Fock approaches. Comparison with data.
doi: 10.1103/PhysRevC.69.014307
2004BU18 Acta Phys.Hung.N.S. 19, 149 (2004) T.Burvenich, T.Cornelius, A.Sulaksono, J.A.Maruhn, W.Greiner, D.G.Madland, P.-G.Reinhard, S.Schramm Application and Extrapolation of Mean-Field Models in the Heavy and Superheavy Regions NUCLEAR STRUCTURE 292120; calculated neutron and proton density distributions. Relativistic point-coupling models.
doi: 10.1556/APH.19.2004.1-2.23
2004BU19 Nucl.Phys. A744, 92 (2004) T.J.Burvenich, D.G.Madland, P.-G.Reinhard Adjustment studies in self-consistent relativistic mean-field models NUCLEAR STRUCTURE Sn, Pb; analyzed binding energies, form factors, radii. Relativistic mean-field approach, role of adjustment procedures discussed.
doi: 10.1016/j.nuclphysa.2004.08.017
2004FL05 Eur.Phys.J. A 22, 363 (2004) P.Fleischer, P.Klupfel, T.Cornelius, T.J.Burvenich, S.Schramm, J.A.Maruhn, P.-G.Reinhard The two-proton shell gap in Sn isotopes NUCLEAR STRUCTURE 108,110,112,114,116,118,120,122,124,126,128,130,132Sn; calculated two-proton shell gap, deformation and correlation effects. Cd, Sn, Te; calculated deformation energies. Several models compared.
doi: 10.1140/epja/i2004-10054-4
2004JO17 J.Phys.(London) G30, L43 (2004) E.F.Jones, J.H.Hamilton, P.M.Gore, A.V.Ramayya, J.K.Hwang, A.P.deLima, S.J.Zhu, Y.X.Luo, C.J.Beyer, J.Kormicki, X.Q.Zhang, W.C.Ma, I.Y.Lee, J.O.Rasmussen, S.C.Wu, T.N.Ginter, P.Fallon, M.Stoyer, J.D.Cole, A.V.Daniel, G.M.Ter-Akopian, R.Donangelo, S.J.Asztalos, T.Cornelius, P.Fleischer, M.Bender, T.Burvenich, S.Schramm, J.A.Maruhn, P.-G.Reinhard Identification of levels in 162, 164Gd and decrease in moment of inertia between N = 98-100 RADIOACTIVITY 252Cf(SF); measured Eγ, Iγ, γγ-coin. 162,164Gd deduced levels, J, π, rotational bands. Collective features in neighboring nuclides discussed.
doi: 10.1088/0954-3899/30/12/L02
2004MA60 Nucl.Phys. A741, 52 (2004) D.G.Madland, T.J.Burvenich, J.A.Maruhn, P.-G.Reinhard On the isovector channels in relativistic point coupling models within the Hartree and Hartree-Fock approximations
doi: 10.1016/j.nuclphysa.2004.06.003
2004RE29 Nucl.Phys. A746, 76c (2004) P.-G.Reinhard, T.Burvenich, T.Cornelius, P.Fleischer, P.Klupfel, J.A.Maruhn Mean-field models and exotic nuclei
doi: 10.1016/j.nuclphysa.2004.09.072
2003BU20 Nucl.Phys. A729, 769 (2003) A nucleonic NJL model for finite nuclei: dynamic mass generation and ground-state observables NUCLEAR STRUCTURE 16O, 40Ca, 88Sr, 90Zr, 208Pb; calculated binding energies, radii. 132Sn; calculated binding energy. 16O, 48Ca, 208Pb; calculated charge density distributions. 16O calculated single-particle level energies. Nambu-Jona-Lasinio model.
doi: 10.1016/j.nuclphysa.2003.10.002
2003GR38 Acta Phys.Hung.N.S. 18, 127 (2003) Highly Correlated Vacuum and the Production of Exotic Clusters NUCLEAR STRUCTURE 8Be, 16O, 208Pb; calculated particle density distributions with and without bound antiprotons. 208Pb; calculated single-particle levels with and without bound antiprotons, anti-alpha particles. Relativistic mean field model.
doi: 10.1556/APH.18.2003.2-4.2
2003MI17 Yad.Fiz. 66, 1595 (2003); Phys.Atomic Nuclei 66, 1552 (2003) S.Misicu, T.Burvenich, T.Cornelius, W.Greiner Collective Excitations of the Element Z = 120 NUCLEAR STRUCTURE 208Pb, 292120; calculated matter densities, transition densities for giant resonances. Phenomenological collective approach.
doi: 10.1134/1.1601764
2002BU07 Phys.Rev. C65, 044308 (2002) T.Burvenich, D.G.Madland, J.A.Maruhn, P.-G.Reinhard Nuclear Ground State Observables and QCD Scaling in a Refined Relativistic Point Coupling Model NUCLEAR STRUCTURE Ca, Ni, Sn, Pb, Cf, Fm, No, Rf, Sg, Hs; calculated binding energies. 240Pu; calculated fission barrier. Sn, Pb; calculated radii, surface thickness. 48Ca, 100Sn; calculated total baryon densities. 48Ca; calculated charge form factor. Relativistic point-coupling model, comparison with other models.
doi: 10.1103/PhysRevC.65.044308
2002BU20 Phys.Lett. 542B, 261 (2002) T.Burvenich, I.N.Mishustin, L.M.Satarov, J.A.Maruhn, H.Stocker, W.Greiner Enhanced Binding and Cold Compression of Nuclei due to Admixture of Antibaryons NUCLEAR STRUCTURE 8Be, 16O; calculated density distributions, energy levels with and without antiproton admixture.
doi: 10.1016/S0370-2693(02)02351-1
2002BU35 Prog.Theor.Phys.(Kyoto), Suppl. 146, 130 (2002) T.Burvenich, D.G.Madland, A.Sulaksono, J.Maruhn, P.-G.Reinhard A Relativistic Point Coupling Model for Nuclear Structure Calculations NUCLEAR STRUCTURE 16O, 40,48Ca, 56,58Ni, 88Sr, 90Zr, 100,112,120,124,132Sn, 136Xe, 144Sm, 202,204,208Pb; calculated binding energies, radii. Relativistic point coupling model.
2002BU36 Acta Phys.Hung.N.S. 16, 275 (2002) T.Burvenich, M.Bender, P.-G.Reinhard, J.A.Maruhn Fission Barriers of Superheavy Nuclei from Self-Consistent Mean-Field Models NUCLEAR STRUCTURE Z=108-120; calculated fission barrier features. Self-consistent mean-field approach.
doi: 10.1556/APH.16.2002.1-4.30
2002BU37 J.Nucl.Radiochem.Sci. 3, No 1, 191 (2002) T.Burvenich, D.G.Madland, J.A.Maruhn, P.-G.Reinhard A Relativistic Point Coupling Model for Nuclear Structure Calculations
2002MI22 J.Phys.(London) G28, 1441 (2002) S.Misicu, T.Burvenich, T.Cornelius, W.Greiner Properties of Some Collective Excitations in Spherical Nuclei from the Superheavy Island NUCLEAR STRUCTURE 208Pb, 298Fl, 292,300120; calculated β-vibrational spectra, giant resonance transition densities. Relativistic mean-field approach.
doi: 10.1088/0954-3899/28/6/322
2001BU33 Acta Phys.Hung.N.S. 14, 63 (2001) New Development in the Theory of Superheavy Nuclei
doi: 10.1556/APH.14.2001.1-4.8
2000RE21 Hyperfine Interactions 127, 13 (2000) P.-G.Reinhard, C.Reiss, M.Bender, T.Burvenich, T.Cornelius, J.A.Maruhn Exotic nuclei - a challenge for nuclear mean-field models NUCLEAR STRUCTURE Hg; calculated radii, deformation. Sn; calculated two-neutron separation energies, skin thickness for neutron-rich isotopes.
doi: 10.1023/A:1012633904537
1999BE75 Acta Phys.Hung.N.S. 10, 185 (1999) M.Bender, K.Rutz, T.Burvenich, P.-G.Reinhard, J.A.Maruhn, W.Greiner Superheavy Nuclei in Self-Consistent Mean-Field Models NUCLEAR STRUCTURE Z=100-140; calculated shell gaps. 208Pb, 298Fl, 292120; calculated single-particle levels. 264Hs, 298Fl, 292120; calculated potential energy vs deformation. Self-consistent mean-field models, several parameterizations compared.
1998BE65 Acta Phys.Hung.N.S. 7, 167 (1998) M.Bender, K.Rutz, T.Burvenich, P.-G.Reinhard, J.A.Maruhn, W.Greiner Superheavy Nuclei in Self-Consistent Models NUCLEAR STRUCTURE Z=98-108; calculated binding energies, two-neutron separation energies, other ground-state properties for even-even nuclei. 298Fl; calculated single-particle levels. Several models compared.
1998BU26 Eur.Phys.J. A 3, 139 (1998) T.Burvenich, K.Rutz, M.Bender, P.-G.Reinhard, J.A.Maruhn, W.Greiner Superheavy Nuclei in Deformed Mean-Field Calculations NUCLEAR STRUCTURE Z=98-108; calculated even-even nuclei two-neutron, two-proton separation energies. Z=102-128; calculated proton, neutron shell gaps, α-decay Q-values; deduced shell closure features. Nonrelativistic Skyrme-Hartree-Fock scheme, relativistic mean-field model approaches.
doi: 10.1007/s100500050160
1997RU04 Phys.Rev. C56, 238 (1997) K.Rutz, M.Bender, T.Burvenich, T.Schilling, P.-G.Reinhard, J.A.Maruhn, W.Greiner Superheavy Nuclei in Self-Consistent Nuclear Calculations NUCLEAR STRUCTURE 264Hs; calculated binding energy, quadrupole deformation; deduced superheavy magic numbers. Z=110-140; N ≈ 140-280; calculated nucleon gaps plots. Z=120; N=160-260; calculated single proton levels vs neutron number. Relativistic mean-field, spherical HF calculations, comparison of several parametrizations.
doi: 10.1103/PhysRevC.56.238
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