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NSR database version of April 11, 2024.

Search: Author = R.Brockmann

Found 19 matches.

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1999BL06      Phys.Rev. C59, 2546 (1999)

H.Blum, R.Brockmann

Causality in Relativistic Many Body Theory

doi: 10.1103/PhysRevC.59.2546
Citations: PlumX Metrics


1998TO27      Phys.Rev. C58, 3749 (1998)

H.Toki, U.Meyer, A.Faessler, R.Brockmann

Quark Mean Field Model for Nucleons in Nuclei

doi: 10.1103/PhysRevC.58.3749
Citations: PlumX Metrics


1997KA64      Nucl.Phys. A625, 758 (1997)

N.Kaiser, R.Brockmann, W.Weise

Peripheral Nucleon-Nucleon Phase Shifts and Chiral Symmetry

doi: 10.1016/S0375-9474(97)00586-1
Citations: PlumX Metrics


1997WA21      Phys.Lett. 405B, 215 (1997)

T.Waas, R.Brockmann, W.Weise

Deeply Bound Pionic States and the Effective Pion Mass in Nuclear Systems

NUCLEAR STRUCTURE 207Pb; calculated s-wave pion-nucleus chiral potentials; deduced effective mass of deeply bound π-. Pion-nucleus optical potential, chiral symmetry.

doi: 10.1016/S0370-2693(97)00643-6
Citations: PlumX Metrics


1996BR43      Phys.Lett. 367B, 40 (1996)

R.Brockmann, W.Weise

The Chiral Condensate in Nuclear Matter

doi: 10.1016/0370-2693(95)01448-9
Citations: PlumX Metrics


1995AL20      Phys.Rev.Lett. 75, 3814 (1995)

T.Alber, H.Appelshauser, J.Bachler, J.Bartke, H.Bialkowska, F.Bieser, M.A.Bloomer, C.O.Blyth, R.Bock, C.Bormann, F.P.Brady, R.Brockmann, P.Buncic, H.L.Caines, D.Cebra, P.Chan, G.E.Cooper, J.G.Cramer, P.B.Cramer, P.Csato, I.Derado, J.Dunn, V.Eckardt, F.Eckhardt, S.Euler, M.I.Ferguson, H.G.Fischer, Z.Fodor, P.Foka, P.Freund, M.Fuchs, J.Gal, M.Gazdzicki, E.Gladysz, J.Grebieszkow, J.Gunther, J.W.Harris, W.Heck, S.Hegyi, L.A.Hill, I.Huang, M.A.Howe, G.Igo, D.Irmscher, J.Jacobs, P.G.Jones, K.Kadija, J.Kecskemeti, M.Kowalski, A.Kuhmichel, B.Lasiuk, S.Margetis, J.W.Mitchell, A.Mock, J.M.Nelson, G.Odyniec, J.Palinkas, G.Palla, A.D.Panagiotou, A.Petridis, A.Piper, A.M.Poskanzer, D.J.Prindle, F.Puhlhofer, W.Rauch, R.Renfordt, W.Retyk, H.G.Ritter, D.Rohrich, H.Rudolph, K.Runge, A.Sandoval, H.Sann, E.Schafer, N.Schmitz, S.Schonfelder, P.Seyboth, J.Seyerlein, F.Sikler, E.Skrzypczak, R.Stock, H.Strobele, I.Szentpetery, J.Sziklai, M.Toy, T.A.Trainor, S.Trentalange, M.Vassiliou, G.Vesztergombi, D.Vranic, S.Wenig, C.Whitten, T.Wienold, L.Wood, J.Zimanyi, X.-Z.Zhu, R.Zybert

Transverse Energy Production in 208Pb + Pb Collisions at 158 GeV per Nucleon

NUCLEAR REACTIONS Pb(208Pb, X), E=158 GeV/nucleon; measured forward, transverse energy related features.

doi: 10.1103/PhysRevLett.75.3814
Citations: PlumX Metrics


1992BR14      Phys.Rev.Lett. 68, 3408 (1992)

R.Brockmann, H.Toki

Relativistic Density-Dependent Hartree Approach for Finite Nuclei

NUCLEAR STRUCTURE 16O, 40Ca; calculated binding energy per nuclear, rms charge radii, charge density distribution. Relativistic density dependent Hartree approach.

doi: 10.1103/PhysRevLett.68.3408
Citations: PlumX Metrics


1990HA01      Phys.Rev. C41, 147 (1990)

J.W.Harris, J.Miller, H.G.Pugh, P.Renteln, G.Roche, L.S.Schroeder, R.N.Treuhaft, P.N.Kirk, G.Krebs, R.Brockmann, K.L.Wolf

Midrapidity π++ Ratios in 1.05 GeV/Nucleon 40Ca + 40Ca Collisions

NUCLEAR REACTIONS 40Ca(40Ca, xπ+), (40Ca, xπ-), E=1.05 GeV/nucleon; measured σ(θ(π), E(π)) ratios; deduced reaction mechanism.

doi: 10.1103/PhysRevC.41.147
Citations: PlumX Metrics


1990MU15      Phys.Rev. C42, 1981 (1990)

H.Muther, R.Machleidt, R.Brockmann

Relativistic Nuclear Structure. II. Finite Nuclei

NUCLEAR STRUCTURE 16O; calculated energy per particle, charge radius. Dirac-Brueckner-Hartree-Fock approximation.

doi: 10.1103/PhysRevC.42.1981
Citations: PlumX Metrics


1989BR01      Z.Phys. A332, 51 (1989)

R.Brockmann, D.Drechsel, J.Frank, P.-G.Reinhard

Quasi-Free Electron Scattering in a Relativistic Model of the Nucleus

NUCLEAR REACTIONS 40Ca, 208Pb, 238U(e, e'), E not given; calculated response functions. Relativistic model.


1988MU04      Phys.Lett. 202B, 483 (1988)

H.Muther, R.Machleidt, R.Brockmann

Dirac-Brueckner-Hartree-Fock Approach in Finite Nuclei

NUCLEAR STRUCTURE 16O; calculated binding energy per nucleon, charge distribution radius. Dirac-Brueckner-Hartree-Fock approach.

doi: 10.1016/0370-2693(88)91848-5
Citations: PlumX Metrics


1987HA02      Phys.Rev.Lett. 58, 463 (1987)

J.W.Harris, G.Odyniec, H.G.Pugh, L.S.Schroeder, M.L.Tincknell, W.Rauch, R.Stock, R.Bock, R.Brockmann, A.Sandoval, H.Strobele, R.E.Renfordt, D.Schall, D.Bangert, J.P.Sullivan, K.L.Wolf, A.Dacal, C.Guerra, M.E.Oritz

Pion Production in High-Energy Nucleus-Nucleus Collisions

NUCLEAR REACTIONS 139La(139La, πX), E=530, 740, 990, 1200, 1350 MeV/nucleon; measured mean pion multiplicity vs participant nucleons, relative pion abundance; deduced fireball temperatures, compressional potential energies. Stiff nuclear matter equation of state.

doi: 10.1103/PhysRevLett.58.463
Citations: PlumX Metrics


1987MU16      Phys.Lett. 198B, 45 (1987)

H.Muther, R.Machleidt, R.Brockmann

On Relativistic Effects in the Low-Energy Spectra of Nuclei

NUCLEAR STRUCTURE A=18; calculated T=0, 1 levels. Relativistic meson exchange potential.

doi: 10.1016/0370-2693(87)90155-9
Citations: PlumX Metrics


1983ST19      Phys.Rev. C27, 1349 (1983)

H.Stroebele, R.Brockmann, J.W.Harris, F.Riess, A.Sandoval, R.Stock, K.L.Wolf, H.G.Pugh, L.S.Schroeder, R.E.Renfordt, K.Tittel, M.Maier

Charged-particle exclusive analysis of central Ar+KCl and Ar+Pb reactions at 1.8 and 0.8 GeV/nucleon

NUCLEAR REACTIONS K, Cl(40Ar, π-), E=0.36-1.8 GeV/nucleon; K, Cl(α, π-), Ba, I(40Ar, π-), E=977, 772 MeV/nucleon; measured pion multiplicity; deduced incompressibility constant. KCl, BaI2 targets. Central collisions, cascade model.

doi: 10.1103/PhysRevC.27.1349
Citations: PlumX Metrics


1982ST13      Phys.Rev.Lett. 49, 1236 (1982)

R.Stock, R.Bock, R.Brockman, J.W.Harris, A.Sandoval, H.Stroebele, K.L.Wolf, H.G.Pugh, L.S.Schroeder, M.Maier, R.E.Renfordt, A.Dacal, M.E.Ortiz

Compression Effects in Relativistic Nucleus-Nucleus Collisions

NUCLEAR REACTIONS K, Cl(40Ar, π-), E=0.36-1.8 GeV/nucleon; K, Cl(α, π-), Ba, I(40Ar, π-), E=977, 772 MeV/nucleon; measured pion multiplicity; deduced incompressibility constant. KCl, BaI2 targets. Central collisions, cascade model.

doi: 10.1103/PhysRevLett.49.1236
Citations: PlumX Metrics


1978BR27      Phys.Rev. C18, 1510 (1978)

R.Brockmann

Relativistic Hartree-Fock Description of Nuclei

NUCLEAR STRUCTURE 16O, 40Ca; calculated single-particle binding energies. Relativistic Hartree-Fock method.

doi: 10.1103/PhysRevC.18.1510
Citations: PlumX Metrics


1977BR01      Phys.Rev. C15, 361 (1977)

R.Brockmann, M.Dillig

Relativistic Effects in a One-Nucleon Model for Proton Induced Pion Production

NUCLEAR REACTIONS 16O(p, π+), E=150-190 MeV; calculated σ(E).

doi: 10.1103/PhysRevC.15.361
Citations: PlumX Metrics


1977BR26      Phys.Rev. C16, 1282 (1977)

R.Brockmann, W.Weise

Spin-Orbit Coupling in a Relativistic Hartree Model for Finite Nuclei

NUCLEAR STRUCTURE 16O; calculated single particle energies. Relativistic Hartree method, spin-orbit coupling.

doi: 10.1103/PhysRevC.16.1282
Citations: PlumX Metrics


1976BL07      Z.Phys. A277, 311 (1976)

P.Blum, P.Brinckmann, R.Brockmann, R.Lutter, W.Mohr, R.Sauerwein

Angular Dependence of the Polarization of the Recoil Proton from the Reaction γp → π0p in the Region of the Second Resonance

NUCLEAR REACTIONS 1H(γ, p), E=600-1200 MeV; measured polarization.


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