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2020JA06      Acta Phys.Pol. B51, 861 (2020)

J.Jastrzebski, N.Zandi, J.Choinski, M.Sitarz, A.Stolarz, A.Trzcinska, M.Vagheian

Investigation of the Production of the Auger Electron Emitter 135La Using Medical Cyclotrons

doi: 10.5506/APhysPolB.51.861
Citations: PlumX Metrics


2016SZ04      Appl.Radiat.Isot. 118, 182 (2016)

K.Szkliniarz, M.Sitarz, R.Walczak, J.Jastrzebski, A.Bilewicz, J.Choinski, A.Jakubowski, A.Majkowska, A.Stolarz, A.Trzcinska, W.Zipper

Production of medical Sc radioisotopes with an alpha particle beam

NUCLEAR REACTIONS Ca, K, 42Ca(α, X)43Sc/44Sc, E=29 MeV; measured reaction products, Eγ, Iγ; deduced σ, thick target yields. Comparison with EMPIRE code calculations.

doi: 10.1016/j.apradiso.2016.07.001
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0832.


2012JA04      Acta Phys.Pol. B43, 193 (2012)

J.Jastrzebski

Radioactive Nuclei for Medical Applications

COMPILATION 11C, 13N, 15O, 18F, 99Mo, 99Tc, 60Co, 67Ga, 111In, 123,131I, 177Lu, 90Y, 192Ir, 186Re, 201Tl; compiled experimental nuclear structure data of medical isotopes.

doi: 10.5506/APhysPolB.43.193
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2009JA05      Acta Phys.Pol. B40, 839 (2009)

J.Jastrzebski

Nuclear Physics at the Warsaw Cyclotron


2009PI08      Acta Phys.Pol. B40, 849 (2009)

E.Piasecki, A.Trzcinska, W.Gawlikowicz, J.Jastrzebski, N.Keeley, M.Kisielinski, S.Kliczewski, A.Kordyasz, M.Kowalczyk, S.Khlebnikov, E.Koshchiy, E.Kozulin, T.Krogulski, T.Lotkiev, M.Mutterer, K.Piasecki, A.Piorkowska, K.Rusek, A.Staudt, I.Strojek, W.H.Trzaska, M.Sillanpaa, S.Smirnov, G.Tiourin, K.Hagino, N.Rowley

Are the Weak Channels Really Weak?


2009PI15      Phys.Rev. C 80, 054613 (2009)

E.Piasecki, L.Swiderski, W.Gawlikowicz, J.Jastrzebski, N.Keeley, M.Kisielinski, S.Kliczewski, A.Kordyasz, M.Kowalczyk, S.Khlebnikov, E.Koshchiy, E.Kozulin, T.Krogulski, T.Loktev, M.Mutterer, K.Piasecki, A.Piorkowska, K.Rusek, A.Staudt, M.Sillanpaa, S.Smirnov, I.Strojek, G.Tiourin, W.H.Trzaska, A.Trzcinska, K.Hagino, N.Rowley

Effects of weakly coupled channels on quasielastic barrier distributions

NUCLEAR REACTIONS 90,92Zr(20Ne, X), E=36-64 MeV; measured backscattered particle spectra, quasielastic σ; deduced barrier distributions, inelastic Q-value spectra and particle-transfer σ. Comparison with coupled-channel calculations.

doi: 10.1103/PhysRevC.80.054613
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2007KL02      Phys.Rev. C 76, 014311 (2007)

B.Klos, A.Trzcinska, J.Jastrzebski, T.Czosnyka, M.Kisielinski, P.Lubinski, P.Napiorkowski, L.Pienkowski, F.J.Hartmann, B.Ketzer, P.Ring, R.Schmidt, T.von Egidy, R.Smolanczuk, S.Wycech, K.Gulda, W.Kurcewicz, E.Widmann, B.A.Brown

Neutron density distributions from antiprotonic 208Pb and 209Bi atoms

NUCLEAR REACTIONS 208Pb, 209Bi(p-bar, X-ray), E at 106 MeV/c; measured x-ray cascade from antiprotonic atoms. Deduced neutron densities and rms radii.

doi: 10.1103/PhysRevC.76.014311
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2007PI02      Int.J.Mod.Phys. E16, 502 (2007)

E.Piasecki, L.Swiderski, K.Rusek, M.Kisielinski, J.Jastrzebski, A.Kordyasz, M.Kowalczyk, M.Mutterer, T.Krogulski, K.Piasecki, P.Russotto, A.M.Stefanini, N.Rowley

Structure of barrier distributions: probing the role of neutron-transfer channels

NUCLEAR REACTIONS 90,92Zr(20Ne, X), E ≈ 42-62 MeV; measured quasi-elastic σ; deduced barrier distribution, role of neutron-transfer channels.

doi: 10.1142/S0218301307005934
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2007WY02      Phys.Rev. C 76, 034316 (2007)

S.Wycech, F.J.Hartmann, J.Jastrzebski, B.Klos, A.Trzcinska, T.von Egidy

Nuclear surface studies with antiprotonic atom x rays

doi: 10.1103/PhysRevC.76.034316
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2005PI10      Phys.Lett. B 615, 55 (2005)

E.Piasecki, L.Swiderski, P.Czosnyka, M.Kowalczyk, K.Piasecki, M.Witecki, T.Czosnyka, J.Jastrzebski, A.Kordyasz, M.Kisielinski, T.Krogulski, M.Mutterer, S.Khlebnikov, W.H.Trzaska, K.Hagino, N.Rowley

Absence of structure in the 20, 22Ne + 118Sn quasi-elastic barrier distribution

NUCLEAR REACTIONS 118Sn(20Ne, X), (22Ne, X), E ≈ 50-80 MeV; measured particle spectra; deduced quasi-elastic barrier distributions. Coupled channels analysis.

doi: 10.1016/j.physletb.2005.03.070
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2005SW02      Phys.Rev. C 71, 047301 (2005)

W.J.Swiatecki, A.Trzcinska, J.Jastrzebski

Difference of the root-mean-square sizes of neutron and proton distributions in nuclei: Comparison of theory with data

NUCLEAR STRUCTURE 40,48Ca, 54,56,57Fe, 58,60,64Ni, 59Co, 90,96Zr, 106,116Cd, 112,116,120,124Sn, 122,124,126,128Te, 208Pb, 209Bi, 232Th, 238U; calculated neutron-proton radius difference. Droplet model, comparison with data.

doi: 10.1103/PhysRevC.71.047301
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2004JA03      Int.J.Mod.Phys. E13, 343 (2004)

J.Jastrzebski, A.Trzcinska, P.Lubinski, B.Klos, F.J.Hartmann, T.von Egidy, S.Wycech

Neutron density distributions from antiprotonic atoms compared with hadron scattering data

NUCLEAR STRUCTURE 40,48Ca, 54,56,57Fe, 58,60,64Ni, 59Co, 90,96Zr, 106,116Cd, 112,116,120,124Sn, 122,124,126,128,130Te, 208Pb, 209Bi, 232Th, 238U; analyzed antiproton annihilation data; deduced neutron and proton density distributions, radii.

doi: 10.1142/S0218301304002168
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2004KL06      Phys.Rev. C 69, 044311 (2004)

B.Klos, S.Wycech, A.Trzcinska, J.Jastrzebski, T.Czosnyka, M.Kisielinski, P.Lubinski, P.Napiorkowski, L.Pienkowski, F.J.Hartmann, B.Ketzer, R.Schmidt, T.von Egidy, J.Cugnon, K.Gulda, W.Kurcewicz, E.Widmann

Strong interaction and E2 effect in even-A antiprotonic Te atoms

ATOMIC PHYSICS 122,124,126,128,130Te(p-bar, X), E at 106, 300 MeV/c; measured X-ray spectra from antiprotonic atoms; deduced level widths and shifts, nuclear resonance effect. 122,124,126,128,130Te deduced relative neutron, proton radii, neutron density at periphery.

doi: 10.1103/PhysRevC.69.044311
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2004SW02      Int.J.Mod.Phys. E13, 315 (2004)

L.Swiderski, P.Czosnyka, M.Kowalczyk, E.Piasecki, K.Piasecki, M.Witecki, J.Jastrzebski, A.Kordyasz, M.Kisielinski, T.Krogulski, N.Rowley, C.Marchetta, A.Pagano, M.Mutterer, W.H.Trzaska, K.Hagino

How many fusion barriers?

NUCLEAR REACTIONS 112,116,118Sn(20Ne, X), E=64-88 MeV; measured quasi-elastic scattering excitation functions; deduced fusion barrier distributions. Comparison with model predictions.

doi: 10.1142/S0218301304002119
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2004TR02      Nucl.Instrum.Methods Phys.Res. B214, 157 (2004)

A.Trzcinska, J.Jastrzebski, P.Lubinski, F.J.Hartmann, R.Schmidt, T.von Egidy, B.Klos

Information on the nuclear periphery deduced from the properties of heavy antiprotonic atoms

NUCLEAR STRUCTURE 48Ca, 58Ni, 96Zr, 106,116Cd, 112,124Sn, 128Te, 208Pb; analyzed antiprotonic-atom X-ray data; deduced neutron and proton density distributions, radii.

doi: 10.1016/j.nimb.2003.08.017
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2003SC13      Phys.Rev. C 67, 044308 (2003)

R.Schmidt, A.Trzcinska, T.Czosnyka, T.von Egidy, K.Gulda, F.J.Hartmann, J.Jastrzebski, B.Ketzer, M.Kisielinski, B.Klos, W.Kurcewicz, P.Lubinski, P.Napiorkowski, L.Pienkowski, R.Smolanczuk, E.Widmann, S.Wycech

Nucleon density in the nuclear periphery determined with antiprotonic x rays: Cadmium and tin isotopes

NUCLEAR REACTIONS 106,116Cd, 112,116,120,124Sn(p-bar, X), E at rest; measured antiprotonic x-ray spectra. 106,116Cd, 112,116,120,124Sn deduced nucleon density distributions, radii. Comparison with previous data and model predictions.

ATOMIC PHYSICS 106,116Cd, 112,116,120,124Sn; measured antiprotonic x-ray spectra; deduced atomic level widths and shifts.

doi: 10.1103/PhysRevC.67.044308
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2002HA01      Phys.Rev. C65, 014306 (2002)

F.J.Hartmann, R.Schmidt, B.Ketzer, T.von Egidy, S.Wycech, R.Smolanczuk, T.Czosnyka, J.Jastrzebski, M.Kisielinski, P.Lubinski, P.Napiorkowski, L.Pienkowski, A.Trzcinska, B.Klos, K.Gulda, W.Kurcewicz, E.Widmann

Nucleon Density in the Nuclear Periphery Determined with Antiprotonic X Rays: Calcium isotopes

ATOMIC PHYSICS 16O, 40,42,43,44,48Ca(p-bar, X), E at rest; measured antiprotonic X-ray spectra; deduced level widths. 40,42,43,44,48Ca deduced neutron density distribution features.

NUCLEAR REACTIONS 16O, 40,42,43,44,48Ca(p-bar, X), E at rest; measured antiprotonic X-ray spectra; deduced level widths. 40,42,43,44,48Ca deduced neutron density distribution features.

doi: 10.1103/PhysRevC.65.014306
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2002LU12      Phys.Rev. C66, 044616 (2002)

P.Lubinski, A.Grochulska, T.von Egidy, K.Gulda, F.J.Hartmann, J.Jastrzebski, W.Kurcewicz, L.Pienkowski, A.Stolarz, A.Trzcinska

Gold fragmentation induced by stopped antiprotons

NUCLEAR REACTIONS 197Au(p-bar, X), E=0-6.5 MeV; measured fragment isotopic yields; deduced mass and charge distributions, reaction mechanism features. Comparisons with previous results.

doi: 10.1103/PhysRevC.66.044616
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2002PI10      Phys.Rev. C65, 054611 (2002)

E.Piasecki, M.Kowalczyk, K.Piasecki, L.Swiderski, J.Srebrny, M.Witecki, F.Carstoiu, W.Czarnacki, K.Rusek, J.Iwanicki, J.Jastrzebski, M.Kisielinski, A.Kordyasz, A.Stolarz, J.Tys, T.Krogulski, N.Rowley

Barrier Distributions in 16O + 116, 119Sn Quasielastic Scattering

NUCLEAR REACTIONS 116,119Sn(16O, X), E(cm) ≈ 40-70 MeV; measured quasielastic σ; deduced barrier distributions. Comparison with coupled-channels calculations.

doi: 10.1103/PhysRevC.65.054611
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2001CU01      Phys.Rev. C63, 027301 (2001)

J.Cugnon, S.Wycech, J.Jastrzebski, P.Lubinski

Geometrical Effects in Antiproton Annihilation on Nuclei

doi: 10.1103/PhysRevC.63.027301
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2001HA49      Acta Phys.Hung.N.S. 13, 51 (2001)

F.J.Hartmann, R.Schmidt, T.von Egidy, J.Jastrzebski, P.Lubinski, L.Pienkowski, A.Trzcinska, R.Smolanczuk, S.Wycech, B.Klos

Study of the Nuclear Periphery and Antiprotons

doi: 10.1556/APH.13.2001.1-3.7
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2001LO04      Phys.Rev. C63, 034616 (2001)

B.Lott, F.Goldenbaum, A.Bohm, W.Bohne, T.von Egidy, P.Figuera, J.Galin, D.Hilscher, U.Jahnke, J.Jastrzebski, M.Morjean, G.Pausch, A.Peghaire, L.Pienkowski, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid

Thermal Excitation and Decay of Nuclei from Antiproton-Nucleus Interactions at 1.22 GeV

NUCLEAR REACTIONS 12C, Cu, Y, 92,100Mo, 107Ag, Sn, 165Ho, 197Au, Bi, 238U(p-bar, X), E=1.22 GeV; measured light charged particle, intermediate mass fragment, neutron multiplicities, spectra, excitation energy distributions. 197Au, 238U(p-bar, X), E=1.22 GeV; measured fission probability, fragment kinetic energy distributions. Comparisons with model predictions.

doi: 10.1103/PhysRevC.63.034616
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2001TR03      Acta Phys.Pol. B32, 917 (2001)

A.Trzcinska, J.Jastrzebski, P.Lubinski, F.J.Hartmann, R.Schmidt, T.von Egidy, B.Klos

Information on the Nuclear Periphery from Antiprotonic Atoms

NUCLEAR STRUCTURE 48Ca, 58Ni, 96Zr, 112,124Sn, 208Pb; analyzed antiprotonic atom annihilation data; deduced proton, neutron peripheral density features.


2001TR19      Phys.Rev.Lett. 87, 082501 (2001)

A.Trzcinska, J.Jastrzebski, P.Lubinski, F.J.Hartmann, R.Schmidt, T.von Egidy, B.Klos

Neutron Density Distributions Deduced from Antiprotonic Atoms

NUCLEAR REACTIONS 40,48Ca, 54,56,57Fe, 59Co, 58,60,64Ni, 90,96Zr, 112,116,120,124Sn, 116Cd, 128Te, 208Pb, 209Bi, 232Th, 238U(p-bar, X), E at rest; measured x-ray spectra, residual annihilation yields. 40,48Ca, 54,56,57Fe, 59Co, 58,60,64Ni, 90,96Zr, 112,116,120,124Sn, 116Cd, 128Te, 208Pb, 209Bi, 232Th, 238U deduced neutron radii, density distributions.

doi: 10.1103/PhysRevLett.87.082501
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2001TR23      Nucl.Phys. A692, 176c (2001)

A.Trzcinska, J.Jastrzebski, T.Czosnyka, T.von Egidy, K.Gulda, F.J.Hartmann, J.Iwanicki, B.Ketzer, M.Kisielinski, B.Klos, W.Kurcewicz, P.Lubinski, P.J.Napiorkowski, L.Pienkowski, R.Schmidt, E.Widmann

Information on Antiprotonic Atoms and the Nuclear Periphery from the PS209 Experiment

NUCLEAR STRUCTURE 48Ca, 112,116,120,124Sn, 208Pb; analyzed antiproton annihilation data; deduced neutron-to-proton density ratios.

ATOMIC PHYSICS 16O, 40,42,43,44,48Ca, 54,56,57,58Fe, 59Co, 58,60,62,64Ni, 90,96Zr, 106,116Cd, 112,116,120,124Sn, 122,124,126,128,130Te, 172,176Yb, 208Pb, 209Bi, 232Th, 238U; measured antiprotonic atoms strong interaction level widths, shifts.

doi: 10.1016/S0375-9474(01)01176-9
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2000PI02      Phys.Lett. 472B, 15 (2000)

L.Pienkowski, W.Bohne, T.von Egidy, P.Figuera, J.Galin, F.Goldenbaum, D.Hilscher, U.Jahnke, J.Jastrzebski, B.Lott, M.Morjean, G.Pausch, A.Peghaire, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid

Vaporization and Multifragmentation in the Reaction 1.2 GeV (p-bar) + Cu and Ag

NUCLEAR REACTIONS Cu, Ag(p-bar, X), E=1.2 GeV; measured particle energy, (particle)(particle)-coin, excitation energy and mass distributions, particle multiplicities, ratio of vaporization to reaction σ. Intranuclear cascade and statistical model calculations.

doi: 10.1016/S0370-2693(99)01410-0
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1999HA41      Nucl.Phys. A655, 289c (1999)

F.J.Hartmann, T.Czosnyka, K.Gulda, J.Jastrzebski, B.Ketzer, M.Kisielinski, B.Klos, J.Kulpa, W.Kurcewicz, P.Lubinski, P.Napiorkowski, L.Pienkowski, R.Schmidt, R.Smolanczuk, A.Trzcinska, T.von Egidy, E.Widmann, S.Wycech

Antiprotonic Atoms as a Tool to Study the Nuclear Periphery

doi: 10.1016/S0375-9474(99)00215-8
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1999JA14      Phys.Rev.Lett. 83, 4959 (1999)

U.Jahnke, W.Bohne, T.von Egidy, P.Figuera, J.Galin, F.Goldenbaum, D.Hilscher, J.Jastrzebski, B.Lott, M.Morjean, G.Pausch, A.Peghaire, L.Pienkowski, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid

Prevalence of Fission and Evaporation in the Decay of Heavy Nuclei Excited Up to 1000 MeV with Energetic Antiprotons

NUCLEAR REACTIONS 165Ho, 197Au, 238U(p-bar, X), E=1.22 GeV; measured fission fragments, heavy residues kinetic energy vs excitation energy, intermediate mass fragments multiplicity; deduced fission, heavy residue production probabilities. Comparison with statistical model.

doi: 10.1103/PhysRevLett.83.4959
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1999LO22      Nucl.Phys. (Supplement) A654, 803c (1999)

B.Lott, W.Bohne, J.Eades, T.von Egidy, P.Figuera, H.Fuchs, J.Galin, K.Gulda, F.Goldenbaum, D.Hilscher, U.Jahnke, J.Jastrzebski, W.Kurcewicz, M.Morjean, G.Pausch, A.Peghaire, L.Pienkowski, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid, P.Ziem

Formation and Decay of Nuclei Heated with High-Energy Antiprotons

NUCLEAR REACTIONS 197Au, 238U(p-bar, X), E=1.22 GeV; measured fission probability and intermediate mass fragment vs excitation energy. Absence of multifragmentation discussed.

doi: 10.1016/S0375-9474(00)88550-4
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1999PI10      Nucl.Phys. A655, 269c (1999)

L.Pienkowski, W.Bohne, J.Eades, T.von Egidy, P.Figuera, H.Fuchs, J.Galin, F.Goldenbaum, Ye.S.Golubeva, K.Gulda, D.Hilscher, A.S.Iljinov, U.Jahnke, J.Jastrzebski, W.Kurcewicz, B.Lott, M.Morjean, G.Pausch, A.Peghaire, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid, P.Ziem

Decay of Hot Nuclei Formed with Energetic Antiprotons (PS208)

NUCLEAR REACTIONS Ho, 197Au, U(p-bar, X), E=1.22 GeV; measured neutron multiplicity, fragment mass distributions, fission probability.

doi: 10.1016/S0375-9474(99)00212-2
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1999SC35      Phys.Rev. C60, 054309 (1999)

R.Schmidt, F.J.Hartmann, B.Ketzer, T.von Egidy, T.Czosnyka, J.Jastrzebski, M.Kisielinski, P.Lubinski, P.Napiorkowski, L.Pienkowski, A.Trzcinska, B.Klos, R.Smolanczuk, S.Wycech, W.Poschl, K.Gulda, W.Kurcewicz, E.Widmann

Composition of the Nuclear Periphery from Antiproton Absorption using Short-Lived Residual Nuclei

NUCLEAR REACTIONS 48Ca, 100Mo, 104Ru, 112,124Sn, 116Cd(p-bar, X), E at rest; measured Eγ, Iγ(t) following residual nucleus decay; deduced yields, isomeric ratios. 48Ca, 100Mo, 104Ru, 112,124Sn, 116Cd deduced peripheral neutron-to-proton ratios, effective scattering lengths of antiprotons. Comparison with Hartree-Fock-Bogoliubov calculations.

doi: 10.1103/PhysRevC.60.054309
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1999SC49      Hyperfine Interactions 118, 67 (1999)

R.Schmidt, T.Czosnyka, K.Gulda, F.J.Hartmann, J.Jastrzebski, B.Ketzer, B.Klos, J.Kulpa, W.Kurcewicz, P.Lubinski, P.Napiorkowski, L.Pienkowski, R.Smolanczuk, A.Trzcinska, T.von Egidy, E.Widmann, S.Wycech

Determination of the proton and neutron densities at the nuclear periphery with antiprotonic X-rays and (p-bar)-nucleus reactions

NUCLEAR REACTIONS 172,176Yb(p-bar, X), E at rest; measured X-ray spectra; deduced strong interaction shifts, widths. 172,176Yb deduced surface nucleon densities.

ATOMIC PHYSICS 172,176Yb(p-bar, X), E at rest; measured X-ray spectra; deduced strong interaction shifts, widths. 172,176Yb deduced surface nucleon densities.

doi: 10.1023/A:1012680402100
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1999WY01      Nucl.Phys. A655, 257c (1999)

S.Wycech, T.Czosnyka, T.von Egidy, E.J.Hartmann, J.Jastrzebski, B.Klos, J.Kulpa, P.Lubinski, L.Pienkowski, R.Smolanczuk, R.Schmidt, A.Trzcinska

Nuclear Interactions of Antiprotons: Theory

doi: 10.1016/S0375-9474(99)00210-9
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1998LU05      Phys.Rev. C57, 2962 (1998)

P.Lubinski, J.Jastrzebski, A.Trzcinska, W.Kurcewicz, F.J.Hartmann, W.Schmid, T.von Egidy, R.Smolanczuk, S.Wycech

Composition of the Nuclear Periphery from Antiproton Absorption

NUCLEAR REACTIONS 45Sc, 56Fe, 58Ni, 96Zr, 96Ru, Cd, 106Cd, 128,130Te, Te, 144,154Sm, 148Nd, Eu, 160Gd, Yb, 176Yb, 206Pb, 232Th, 238U(p-bar, X), E at rest; measured Eγ, Iγ; deduced annihilation products yields, isomeric ratios, charge exchange processes. 58Ni, 96Ru, 96Zr, 106Cd, 128,130Te, 144,154Sm, 148Nd, 160Gd, 176Yb, 232Th, 238U deduced nuclear periphery neutron-to-proton density ratios, related features. Radiochemical methods. Shell model calculations.

doi: 10.1103/PhysRevC.57.2962
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1998SC43      Phys.Rev. C58, 3195 (1998)

R.Schmidt, F.J.Hartmann, T.von Egidy, T.Czosnyka, J.Iwanicki, J.Jastrzebski, M.Kisielinski, P.Lubinski, P.Napiorkowski, L.Pienkowski, A.Trzcinska, J.Kulpa, R.Smolanczuk, S.Wycech, B.Klos, K.Gulda, W.Kurcewicz, E.Widmann

Nucleon Density of 172Yb and 176Yb at the Nuclear Periphery Determined with Antiprotonic x Rays

NUCLEAR REACTIONS 172,176Yb(p-bar, X), E at rest; measured x-ray spectra; deduced widths and shifts due to strong interaction. 172,176Yb deduced nucleon density at nuclear periphery.

doi: 10.1103/PhysRevC.58.3195
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1997SC27      Z.Phys. A359, 27 (1997)

S.Schmid, W.Schmid, F.J.Hartmann, T.von Egidy, D.Hilscher, W.Bohne, P.Figuera, F.Goldenbaum, U.Jahnke, D.Polster, P.Ziem, J.Galin, B.Lott, M.Morjean, A.Peghaire, B.Quednau, K.Gulda, J.Jastrzebski, W.Kurcewicz, L.Pienkowski, G.Pausch, J.Eades, A.S.Iljinov, M.V.Mebel

Probability of Fission Induced by 1.2 GeV Antiprotons

NUCLEAR REACTIONS 238U, 232Th, 209Bi, 197Au, 165Ho, 119Sn, Ag, 100Mo, 89Y, Cu(p-bar, F), E=1.2 GeV; measured annihilation σ, absolute fission probability vs fragment mass, neutron multiplicity, fission fragment folding angle distributions. Monte Carlo calculations. 4π neutron, particle detectors.

doi: 10.1007/s002180050363
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1996GO25      Phys.Rev.Lett. 77, 1230 (1996)

F.Goldenbaum, W.Bohne, J.Eades, T.von Egidy, P.Figuera, H.Fuchs, J.Galin, Ye.S.Golubeva, K.Gulda, D.Hilscher, A.S.Iljinov, U.Jahnke, J.Jastrzebski, W.Kurcewicz, B.Lott, M.Morjean, G.Pausch, A.Peghaire, L.Pienkowski, D.Polster, S.Proschitzki, B.Quednau, H.Rossner, S.Schmid, W.Schmid, P.Ziem

Heating of Nuclei with Energetic Antiprotons

NUCLEAR REACTIONS Cu, Ho, 197Au, U(p-bar, X), E=1.2 GeV; measured neutron multiplicity vs charged particle multiplicity, excitation energy distribution; deduced nuclei decay mechanism.

doi: 10.1103/PhysRevLett.77.1230
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1996PI05      Phys.Lett. 377, 235 (1996)

E.Piasecki, L.Pienkowski, M.Muchorowska, A.Tucholski, T.Czosnyka, A.Chbihi, E.Crema, W.Czarnacki, J.Galin, B.Gatty, D.Guerreau, J.Iwanicki, D.Jacquet, U.Jahnke, J.Jastrzebski, M.Kisielinski, A.Kordyasz, M.Lewitowicz, M.Morjean, J.Pouthas

Evidence for Coulomb Fission of 238U in the Interaction of 24.3 MeV/Nucleon 238U with 197Au: A new experimental approach

NUCLEAR REACTIONS 197Au(238U, F), E=24.3 MeV/nucleon; measured fission events Coulomb distribution vs neutron multiplicity. 238U deduced Coulomb fission evidence.

doi: 10.1016/0370-2693(96)00327-9
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1995JA09      Acta Phys.Pol. B26, 527 (1995)

J.Jastrzebski, P.Lubinski, A.Trzcinska

Nuclear Structure and Nuclear Excitations from Antiproton-Nucleus Interaction

NUCLEAR REACTIONS 63Cu(p-bar, X), (p, X), E=3.9 GeV; 197Au(p, X), E=1, 6 GeV; 197Au(p-bar, X), E=1, 1.2 GeV; compiled, reviewed heavy residues mass, yields, production data, analyses; deduced nuclear surface related features. Other reactions, other aspects discussed, new nuclear periphery study method.


1995PI10      Phys.Lett. 351B, 412 (1995)

E.Piasecki, A.Chbihi, E.Crema, W.Czarnacki, J.Galin, B.Gatty, D.Guerreau, J.Iwanicki, D.Jacquet, U.Jahnke, J.Jastrzebski, M.Kisielinski, A.Kordyasz, M.Lewitowicz, M.Morjean, M.Muchorowska, L.Pienkowski, J.Pouthas, A.Tucholski

Reaction Mechanisms in 24.3 MeV/nucleon 238U Induced Reactions Through a Comprehensive Study of Fission

NUCLEAR REACTIONS 12C, 28Si, 58Ni, 197Au(238U, F), E=24.3 MeV/nucleon; measured fission events vs neutron multiplicity, vs fragment Z and other aspects; deduced potential energy effects persistence above the interaction barrier.

doi: 10.1016/0370-2693(95)00341-H
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1995PO04      Phys.Rev. C51, 1167 (1995)

D.Polster, D.Hilscher, H.Rossner, T.von Egidy, F.J.Hartmann, J.Hoffmann, W.Schmid, I.A.Pshenichnov, A.S.Iljinov, Ye.S.Golubeva, H.Machner, H.S.Plendl, A.Grochulska, J.Jastrzebski, W.Kurcewicz, P.Lubinski, J.Eades, S.Neumaier

Light Particle Emission Induced by Stopped Antiprotons in Nuclei: Energy dissipation and neutron-to-proton ratio

NUCLEAR REACTIONS C, 27Al, Si, Ca, Cu, 92,100Mo, Ag, Ho, Ta, 197Au, 209Bi, U(p-bar, X), E at rest; measured inclusive spectra, multipticities for X=π+, K+, n, p, d, t; deduced excitation energy, neutron to proton ratio. Intranuclear cascade calculations.

doi: 10.1103/PhysRevC.51.1167
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1995VO14      Z.Naturforsch. 50a, 1077 (1995)

T.von Egidy, F.J.Hartmann, S.Schmid, W.Schmid, K.Gulda, J.Jastrzebski, W.Kurcewicz, P.Lubinski, L.Pienkowski, A.Trzcinska, D.Hilscher, W.Bohne, F.Goldenbaum, U.Jahnke, D.Polster, H.Rossner, A.S.Iljinov, D.I.Ivanov, M.V.Mebel, V.G.Nedorezov, A.S.Sudov, J.Eades, S.Neumaier

Nuclear Physics with Antiprotons

NUCLEAR REACTIONS 197Au(p-bar, X), E at rest; 197Au(p-bar, X), E=1.2 GeV; 197Au(p, X), E=1, 6 GeV; compiled, reviewed residuals yields vs mass number. 234U(p-bar, F), E at rest; 234U(p-bar, F), E=fast; measured neutron spectra following fission; deduced absolute fission probabilities.


1994HO08      Phys.Rev. C49, 2555 (1994)

P.Hofmann, A.S.Iljinov, Y.S.Kim, M.V.Mebel, H.Daniel, P.David, T.von Egidy, T.Haninger, F.J.Hartmann, J.Jastrzebski, W.Kurcewicz, J.Lieb, H.Machner, H.S.Plendl, G.Riepe, B.Wright, K.Ziock

Fission of Heavy Nuclei Induced by Stopped Antiprotons. I. Inclusive Characteristics of Fission Fragments

NUCLEAR REACTIONS 238U, 232Th, 209Bi(p-bar, F), E at rest; measured fission fragment energy, mass, θ; deduced fission fragment total mass, total momentum. Intranuclear cascade, evaporation, fission models.

doi: 10.1103/PhysRevC.49.2555
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1994LU13      Phys.Rev.Lett. 73, 3199 (1994)

P.Lubinski, J.Jastrzebski, A.Grochulska, A.Stolarz, A.Trzcinska, W.Kurcewicz, F.J.Hartmann, W.Schmid, T.von Egidy, J.Skalski, R.Smolanczuk, S.Wycech, D.Hilscher, D.Polster, H.Rossner

Neutron Halo in Heavy Nuclei from Antiproton Absorption

NUCLEAR REACTIONS 58Ni, 96Zr, 96Ru, 130Te, 154,144Sm, 176Yb, 232Th, U(p-bar, X), E at 200 MeV/c; measured residuals production yield; deduced neutron halo features.

doi: 10.1103/PhysRevLett.73.3199
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1993JA01      Phys.Rev. C47, 216 (1993)

J.Jastrzebski, W.Kurcewicz, P.Lubinski, A.Grabowska, A.Stolarz, H.Daniel, T.von Egidy, F.J.Hartmann, P.Hofmann, Y.S.Kim, A.S.Botvina, Ye.S.Golubeva, A.S.Iljinov, G.Riepe, H.S.Plendl

Interaction of Stopped Antiprotons with Copper

NUCLEAR REACTIONS Cu(p-bar, X), E at rest; measured residuals cumulative, independent yields for X=7Be-72Zn; deduced average energy deposited. Intranuclear cascade model.

doi: 10.1103/PhysRevC.47.216
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1993JA09      Nucl.Phys. A558, 405c (1993)

J.Jastrzebski, H.Daniel, T.von Egidy, A.Grabowska, Y.S.Kim, W.Kurcewicz, P.Lubinski, G.Riepe, W.Schmid, A.Stolarz, S.Wycech

Signature of Neutron Halo in 232Th from Antiproton Absorption

NUCLEAR REACTIONS 232Th(p-bar, X), E at rest; measured Eγ, Iγ; deduced evidence for 231Th, 231Ac. 232Th deduced neutron, proton densities, neutron halo evidence.

doi: 10.1016/0375-9474(93)90409-Q
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1993PL05      Phys.Scr. 48, 160 (1993)

H.S.Plendl, H.Daniel, T.von Egidy, T.Haninger, F.S.Hartmann, P.Hofmann, Y.S.Kim, H.Machner, G.Riepe, J.Jastrzebski, A.Grabowska, W.Kurcewicz, P.Lubinski, A.Stolarz, A.S.Botvina, Ye.S.Golubeva, A.S.Iljinov, V.G.Nedorezov, A.S.Sudov, K.Ziock

Antiproton-Nucleus Annihilation at Rest

NUCLEAR REACTIONS 238U(p-bar, F), E at rest; compiled, reviewed fission fragment mass distributions. Other p-bar induced reactions included.

doi: 10.1088/0031-8949/48/2/006
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1993VO06      Nucl.Phys. A558, 383c (1993)

T.von Egidy, H.Daniel, F.J.Hartmann, P.Hofmann, Y.S.Kim, W.Schmid, H.H.Schmidt, G.Riepe, H.Machner, P.David, H.S.Plendl, A.S.Iljinov, A.S.Botvina, Ye.S.Golubeva, M.V.Mebel, J.Jastrzebski, W.Kurcewicz

Antiproton Induced Fission

NUCLEAR REACTIONS 209Bi, 232Th, 238U(p-bar, F), E at 105 MeV/c; measured fission fragment mass yield distributions; deduced absolute fission probabilities.

doi: 10.1016/0375-9474(93)90407-O
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1992BR28      Phys.Lett. 294B, 33 (1992)

S.Bresson, M.Morjean, L.Pienkowski, R.Bougault, J.Colin, E.Crema, J.Galin, B.Gatty, A.Genoux-Lubain, D.Guerreau, D.Horn, D.Jacquet, U.Jahnke, J.Jastrzebski, A.Kordyasz, C.Le Brun, J.F.Lecolley, B.Lott, M.Louvel, C.Paulot, E.Piasecki, J.Pouthas, B.Quednau, W.U.Schroder, W.Skulski, J.Toke

Fission of Spin-Aligned Projectile-Like Nuclei in the Interactions of 29 MeV/Nucleon 208Pb with 197Au

NUCLEAR REACTIONS 197Au(208Pb, X), E=29 MeV/nucleon; measured binary fission fragment production σ, velocity vs Z, associated neutron multiplicity; deduced fission mechanism, spin alignment features.

doi: 10.1016/0370-2693(92)91635-M
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1992CH48      Nucl.Phys. A545, 229c (1992)

A.Chbihi, R.Bougault, S.Bresson, J.Colin, E.Crema, J.Galin, B.Gatty, A.Genoux-Lubain, D.Guerreau, D.Horn, D.Jacquet, U.Jahnke, J.Jastrzebski, A.Kordyasz, C.Le Brun, J.F.Lecolley, B.Lott, M.Louvel, M.Morjean, C.Paulot, E.Piasecki, L.Pienkowski, J.Pouthas, B.Quednau, W.U.Schroder, E.Schwinn, W.Skulski, J.Toke

Sequential LCP Emission Associated with Multifragmentation of the Pb + Au System at 29 MeV/u

NUCLEAR REACTIONS 197Au(Pb, X), E=29 MeV/nucleon; measured σ(θα, Eα), (fragment)(α)-velocity correlation; deduced light charged particle emission mechanism.

doi: 10.1016/0375-9474(92)90462-S
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1992SK02      Z.Phys. A342, 61 (1992)

W.Skulski, B.Fornal, R.Broda, J.Jastrzebski, P.Koczon, J.Kownacki, M.Opacka, T.Pawlat, L.Pienkowski, W.Plociennik, J.Sieniawski, P.P.Singh, J.Styczen, J.Wrzesinski

Mass and Charge Release by the Evaporation of Particles from Compound Nuclei Around Mass 60

NUCLEAR REACTIONS 54,56Fe, 58Ni, 59Co(α, X), E=23, 27 MeV; measured reaction product σ. 59Co(α, n), (α, 2n), E=23, 27 MeV; measured σ(E); deduced σ-averaged charge, mass removed from composite nucleus. Statistical model. Self-supporting enriched 54,56Fe, 58Ni targets.

doi: 10.1007/BF01294489
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1991PI01      Phys.Rev. C43, 1331 (1991)

L.Pienkowski, J.Jastrzebski, W.Kurcewicz, A.Gizon, J.Blachot, J.Crancon

Interaction of 8-46 MeV/Nucleon 20Ne with Cu

NUCLEAR REACTIONS, ICPND Cu(20Ne, X), E=8-46 MeV/nucleon; measured residuals production σ(E) for X=43K-77Kr, thick target yields; deduced reaction dynamics features.

doi: 10.1103/PhysRevC.43.1331
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1990SK03      Phys.Rev. C41, 2605 (1990)

W.Skulski, J.Jastrzebski, P.P.Singh, Q.Chen, M.Fatyga

Limitation of the Linear Momentum Transfer in 4He + 59Co Collisions

NUCLEAR REACTIONS 59Co(α, X), E=90, 150, 200 MeV; measured evaporation residue recoil range distributions; deduced recoil velocity distributions, primary reaction products excitation energies.

doi: 10.1103/PhysRevC.41.2605
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1987BA28      Phys.Lett. 189B, 287 (1987)

T.Batsch, J.Blachot, Q.Chen, J.Crancon, M.Fatyga, A.Gizon, J.Jastrzebski, H.Karwowski, W.Kurcewicz, A.Lleres, T.Mroz, L.Pienkowski, P.P.Singh, S.E.Vigdor, I.Zychor

Target Mass Dependence of the Average Linear Momentum Transfer

NUCLEAR REACTIONS Co, Cu, Ag(3He, X), (α, X), (14N, X), (20Ne, X), E=10-90 MeV/nucleon; measured σ, forward recoil ranges; deduced average transferred linear momentum. Thick-target-thick-catcher recoil range techniques.

doi: 10.1016/0370-2693(87)91433-X
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1987FA03      Phys.Lett. 185B, 321 (1987)

M.Fatyga, R.C.Byrd, K.Kwiatkowski, W.G.Wilson, L.W.Woo, V.E.Viola, Jr., H.J.Karwowski, J.Jastrzebski, W.Skulski

Source Properties of Intermediate Mass Fragments Emitted in the 270 MeV 3He + 232Th Reaction

NUCLEAR REACTIONS 232Th(3He, X), (3He, F), E=270 MeV; measured fission probability following intermediate mass fragmentation; deduced reaction mechanism. ΔE-E telescopes.

doi: 10.1016/0370-2693(87)91007-0
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1986JA09      Phys.Rev. C34, 60 (1986)

J.Jastrzebski, P.P.Singh, T.Mroz, S.E.Vigdor, M.Fatyga, H.J.Karwowski

Interaction of 5-50 MeV/Nucleon 3He and 4He with 59Co

NUCLEAR REACTIONS, ICPND 59Co(α, X)61Cu/60Cu/57Ni/62Cu/59Cu/62Ni/60Ni/59Ni/58Ni/61Co/60Co/58Co/58mCo/59Co/57Co/56Co/55Co/59Fe/58Fe/57Fe/56Fe/55Fe/54Fe/53Fe/52Fe/55Mn/54Mn/53Mn/52Mn/52mMn/51Mn/51Cr/52Cr/53Cr/54Cr/50Cr/49V/48V/50Ti/48Ti, E=20.1-198.9 MeV; 59Co(3He, X)61Cu/57Ni/58Co/58mCo/57Co/56Co/55Co/59Fe/52Fe/56Mn/54Mn/52Mn/51Cr/48V/48Sc/44Sc/44mSc, E=11-44.2 MeV; measured residual production σ, fragment mass, charge distributions, σ(fragment θ). In beam spectroscopy, activation techniques.

doi: 10.1103/PhysRevC.34.60
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0384.


1985KO30      Phys.Rev. C32, 1612 (1985)

R.Kossakowski, J.Jastrzebski, P.Rymuza, W.Skulski, A.Gizon, S.Andre, J.Genevey, J.Gizon, V.Barci

Heavy Residues following 5-10 MeV/Nucleon 12C- and 14N- Induced Reactions on Sm and Pr Targets

NUCLEAR REACTIONS, ICPND 147Sm, 141Pr(12C, X), E=82-110 MeV; 147Sm(12C, X), E=90-110 MeV; 154,150Sm(12C, X), E=90, 110 MeV; 152Sm(12C, X), E=71-110 MeV; 144Sm(14N, X), E=80-107 MeV; 147,150,152Sm(14N, X), E=80-120 MeV; 141Pr(14N, X), E=68-120 MeV; measured Eγ, Iγ; deduced fusion σ(E). 144,147Sm(14N, xn), E=80-120 MeV; measured Eγ, Iγ, γ(θ), γγ-coin. 153,154,155,156,157Tm deduced levels. 141Pr(14N, 3n), (14N, 4n), (14N, 5n), (14N, 6n), (14N, 7n), (14N, 2np), (14N, 3np), (14N, 4np), (14N, 5np), (14N, 6np), E=threshold-120 MeV; measured residuals production σ(E).

doi: 10.1103/PhysRevC.32.1612
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1984JA04      Phys.Lett. 136B, 153 (1984)

J.Jastrzebski, P.P.Singh, T.Mroz, H.J.Karwowski, S.E.Vigdor, M.Fatyga

Momentum Transfer in 30-200 MeV 4He Induced Reaction with 59Co

NUCLEAR REACTIONS 59Co(α, X), E=30-200 MeV; measured residual production σ, recoil range vs compound nucleus, residue mass difference; deduced momentum transfer average characteristics.

doi: 10.1016/0370-2693(84)91170-5
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1984KO17      ATOMKI Kozlem. 26, 33 (1984)

J.Kownacki, J.Jastrzebski, P.Koczon, W.Skulski, J.Wrzesinski, J.Sieniawski, J.Styczen, W.Walus, A.Celler, E.Liukkonen, A.Lukko, A.Pakkanen, Th.Lindblad, S.Elfstrom

Multipolarity Excitations in the Single Closed Shell Nucleus 14058Ce82

NUCLEAR REACTIONS 138Ba(α, 2n), E not given; measured I(ce), γγ-coin. 140Ce deduced levels, J, π, T1/2, ICC, configuration. Intermediate image plus Si-Li electron spectrometer.


1982BI13      Nucl.Instrum.Methods 204, 91 (1982)

J.Bialkowski, J.Jastrzebski, P.Klepacki, J.Lukasiak, M.Moszynski, Z.Preibisz, W.Skulski, S.Andre, J.Genevey, A.Gizon, J.Gizon, G.Margotton

Multidetector System for the Search and Investigation of High Spin, High Energy Isomers Produced in Heavy Ion Induced Nuclear Reactions

NUCLEAR REACTIONS 144Sm(12C, xnyp), E=98 MeV; 141Pr(16O, xn), (16O, xnyp), E=131 MeV; measured Eγ, Iγ, γγ-coin, delayed γ-multiplicity. 151Ho deduced isomer T1/2. Multidetector system, in-beam, out-of-beam conditions.


1981DR07      Z.Phys. A302, 361 (1981)

S.Drissi, S.Andre, J.Genevey, V.Barci, A.Gizon, J.Gizon, J.A.Pinston, J.Jastrzebski, R.Kossakowski, Z.Preibisz

Identification and Structure of Yrast Levels in the N = 89 Odd-Odd 158Tm Nucleus

NUCLEAR REACTIONS 150Sm(14N, xnp), E=80-120 MeV; measured production σ(E) for 157,158,159Er, 158Tm. Activation technique.

RADIOACTIVITY 158Tm [from 150Sm(14N, 6n), E=107 MeV]; measured Eγ, Iγ, γγ-coin, γγ(t); deduced isomer, T1/2, yrast levels, rotational bands, J, π.

doi: 10.1007/BF01414270
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1981GI12      Z.Phys. A301, 67 (1981)

J.Gizon, A.Gizon, S.Andre, J.Genevey, J.Jastrzebski, R.Kossakowski, M.Moszynski, Z.Preibisz

High Spin Levels in 151Ho

NUCLEAR REACTIONS 141Pr(16O, 6n), E=101-131 MeV; 144Sm(12C, 4np), E=82-110 MeV; measured Eγ, Iγ, linear polarization, σ(Eγ, E), γ(θ), γγ-coin, γγ(t). 151Ho deduced levels, J, π, T1/2, δ, configuration, γ-multiplicity. Enriched target, Ge(Li) detectors.

doi: 10.1007/BF01412465
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1980JA14      Phys.Rev. C22, 1443 (1980)

J.Jastrzebski, H.J.Karwowski, M.Sadler, P.P.Singh

Recoil Ranges of Nuclei Produced in the Interaction of 80-164 MeV Protons with Ni

NUCLEAR REACTIONS 58Ni(p, X), 62Ni(p, X), E=80-164 MeV; measured Eγ, Iγ of radioactive products; deduced σ(X, E), recoil ranges, mass, charge distributions. Enriched targets, Ge(Li) counter.

doi: 10.1103/PhysRevC.22.1443
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1980JA16      Phys.Lett. B97, 50 (1980)

J.Jastrzebski, R.Kossakowski, J.Lukasiak, M.Moszynski, Z.Preibisz, S.Andre, J.Genevey, A.Gizon, J.Gizon

Unambiguous Identification and Properties of High Isomers in Nuclei Close to N=82

NUCLEAR REACTIONS 141Pr, 144,147Sm(12C, X), (14N, X), (16O, X), E=70-130 MeV; measured Eγ, Iγ, γγ-coin, delayed γ-multiplicity, γ(t). 151,152,153Er, 150,151,152,153Ho, 149Dy, 148Tb deduced levels, T1/2.

doi: 10.1016/0370-2693(80)90544-4
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1980SA13      Phys.Rev. C21, 2303 (1980)

M.E.Sadler, P.P.Singh, J.Jastrzebski, L.L.Rutledge, Jr., R.E.Segel

Interaction of 80-164 MeV Protons with Nickel Isotopes

NUCLEAR REACTIONS 58,60,62,64Ni(p, X), E=80, 100, 136, 164 MeV; measured σ(Eγ); deduced production σ for 58,57,59,60,61,62,63,64Ni, 54,55,56,57,58,59,60Co, 52,53,54,55,56,57,58Fe, 51,52,53,54,55,56Mn, 50,51,52,53,54Cr, 47,48,49,50V, 46,48,49,50Ti. Hybrid exciton, cascade models.

doi: 10.1103/PhysRevC.21.2303
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1979AN20      Nucl.Phys. A325, 445 (1979)

S.Andre, J.Genevey-Rivier, J.Treherne, R.Kaczarowski, J.Lukasiak, J.Jastrzebski, C.Schuck

Levels of 185Ir Excited in the (α, xn) Reactions

NUCLEAR REACTIONS 185Re(α, 4nγ), 187Re(α, 6nγ), E=41-77 MeV; measured Eγ, Iγ, σ(E, Eγ, θ), γγ(t), γ(t). 185Ir deduced levels, J, π, T1/2, 185mIr deduced T1/2. Enriched targets.

doi: 10.1016/0375-9474(79)90026-5
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1979JA06      Phys.Rev. C19, 724 (1979)

J.Jastrzebski, H.Karwowski, M.Sadler, P.P.Singh

Fusion and Nonfusion Processes in Reactions Induced by 10-100-MeV 6Li Ions with Fe Targets

NUCLEAR REACTIONS 54,56Fe(6Li, X), E=10-100 MeV; measured Eγ, Iγ; deduced production total, fusion, transfer σ, mass distribution. Enriched thick targets, Ge(Li) detectors, in-beam γ-spectroscopy, decay techniques.

doi: 10.1103/PhysRevC.19.724
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1979LU01      Nucl.Phys. A313, 191 (1979)

J.Lukasiak, R.Kaczarowski, J.Jastrzebski, S.Andre, J.Treherne

Levels of 191Ir Excited in the (p, 2n) and (d, 3n) Reactions

NUCLEAR REACTIONS 192Os(p, 2nγ), E=12-24 MeV; 192Os(d, 3nγ), E=19-28 MeV; measured Eγ, Iγ, σ(E, Eγ, θ), γγ-coin, γ(t). 191Ir deduced levels, J, π, T1/2. 191mIr deduced T1/2. Enriched target.

doi: 10.1016/0375-9474(79)90575-X
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1978CA15      Phys.Lett. 77B, 371 (1978)

C.M.Castaneda, H.A.Smith, Jr., P.P.Singh, J.Jastrzebski, H.Karwowski, A.K.Gaigalas

Gamma-Rays from the Transfer of α and d Fragments in 6Li Induced Reactions Far Above the Coulomb Barrier

NUCLEAR REACTIONS 197Au(6Li, X), E=75 MeV; measured particle γ-coin; deduced reaction mechanism.

doi: 10.1016/0370-2693(78)90580-4
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1977AN02      Phys.Rev.Lett. 38, 327 (1977)

S.Andre, J.Genevey-Rivier, J.Treherne, J.Jastrzebski, R.Kaczarowski, J.Lukasiak

High-Spin States in 183Ir and 185Ir Nuclei: Is the Breaking of a Few Pairs of Nucleons Responsible for the Backbending Effect in the Osmium Region (Question)

NUCLEAR REACTIONS 187,185Re(α, 6nγ), E=72, 80 MeV; 185Re(α, 4nγ), E=41-56 MeV; measured σ(E, Eγ, θ), γγ-coin, γγ(t). 183,185Ir deduced levels, J, π, backbending.

doi: 10.1103/PhysRevLett.38.327
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1977SA07      Phys.Rev.Lett. 38, 950 (1977)

M.Sadler, J.Jastrzebski, A.Nadasen, P.P.Singh, L.L.Rutledge, Jr., T.Chen, R.E.Segel

Systematics in the Interaction of Intermediate-Energy Protons with Medium-Mass Nuclei

NUCLEAR REACTIONS 58Ni(p, X), E=80, 100, 164, 136 MeV; 60,62,64Ni(p, X), E=136 MeV; measured σ(A) for production of A=46-64.

doi: 10.1103/PhysRevLett.38.950
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1976JA18      J.Phys.(Paris) 37, 1383 (1976)

J.Jastrzebski, R.Kaczarowski, J.Lukasiak, S.Andre, J.Treherne

Levels in 192Os Excited by the (p, p') and (d, d') Reactions

NUCLEAR REACTIONS 192Os(p, p'γ), E=16 MeV; 192Os(d, d'γ), E=23.2 MeV; measured Eγ, Iγ, γγ-coin. 192Os deduced levels, K, J, π.

doi: 10.1051/jphys:0197600370120138300
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1975AN08      Nucl.Phys. A243, 229 (1975)

S.Andre, J.Boutet, J.Rivier, J.Treherne, J.Jastrzebski, J.Lukasiak, Z.Sujkowski, C.Sebille-Schuck

Excited States of the Transitional 189Ir and 187Ir Nuclei Populated by The (α, 2n) Reaction

NUCLEAR REACTIONS 185,187Re(α, 2nγ), 187Re(α, 3nγ), E=23-43 MeV; measured Eγ, Iγ, σ(E, Eγ, θ), γγ-coin, γ(t). 187,189Ir deduced levels, J, π, T1/2. 188m,189mIr deduced T1/2. Enriched targets.

doi: 10.1016/0375-9474(75)90246-8
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1975KA11      J.Phys.(Paris) 36, 471 (1975)

H.Karwowski, S.Majewski, B.Pietrzyk, L.Wencel, J.Jastrzebski

Nanosecond Isomers in 186W

RADIOACTIVITY 186Ta, 186Re; measured Eγ, Iγ, γγ(t), γce(t). 186W deduced levels, T1/2.

doi: 10.1051/jphys:01975003606047100
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1974AN08      Priv.Comm. (June 1974); See Also 74Anzt, 73An21

S.Andre, J.Boutet, J.Jastrzebski, R.Kaczarowski, J.Lukasiak, J.Rivier, C.Sebille-Schuck, Z.Sujkowski, J.Treherne


1973JA16      J.Phys.(Paris) 34, 755 (1973)

J.Jastrzebski, P.Kilcher, P.Paris

Desintegration du 189Hg et du 189Au

RADIOACTIVITY 189Hg, 189Au; measured I(ce), Eγ, Iγ. Deduced ICC. 189Pt deduced levels, γ-multipolarities, γ-mixing.

doi: 10.1051/jphys:019730034010075500
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1973SE13      Nucl.Phys. A212, 45 (1973)

C.Sebille-Schuck, M.Finger, R.Foucher, J.P.Husson, J.Jastrzebski, V.Berg, S.G.Malmskog, G.Astner, B.R.Erdal, P.Patzelt, P.Siffert

The Decay of 187Pt; Comparison of the Levels of 187Ir with Those of Heavier Odd Mass Iridium Isotopes

RADIOACTIVITY 187Pt [from Pb(p, 3pxn) Hg (EC) Au (EC) Pt; mass separated]; measured T1/2, Eγ, Iγ, E(ce), I(ce), ICC, γγ-coin, (ce)(ce)- coin, γγ delay, γce delay, (ce)(ce)- delay. 187Au; measured T1/2. 187Ir deduced levels, J, π, T1/2, M1/E2 admixtures, B(M1), B(E1), B(E2). Ge(Li), Si(Li), magnetic spectrometers.

doi: 10.1016/0375-9474(73)90037-7
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1972FI12      Nucl.Phys. A188, 369 (1972)

M.Finger, R.Foucher, J.P.Husson, J.Jastrzebski, A.Johnson, G.Astner, B.R.Erdal, A.Kjelberg, P.Patzelt, A.Hoglund, S.G.Malmskog, R.Henck

Properties of Low-Lying Levels in the Even Platinum Nuclei (182 < A < 192)

RADIOACTIVITY 192Au, 190Au, 188Au, 186Au, 184Au, 182Au[from pb(p, 3pxn)Hg-Au, mass separated]; measured Eγ, Iγ, E(ce), I(ce), γγ-, ceγ-coin, cece-delay, ceγ--delay. 182,184,186,188,190,192Pt deduced levels, J, π, ICC, T1/2. Au chemical purification. Magnetic spectrometers, Ge(Li), Si(Li).

doi: 10.1016/0375-9474(72)90064-4
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1972JA22      Acta.Phys.Pol. B3, 397 (1972)

J.Jastrzebski

Effect of the N = 108 'Deformed Shell' on Nuclear Properties


1972JA30      Postepy Fiz. 23, 561 (1972)

J.Jastrzebski

Spontanicznie Rozszczepiajace Sie Izomery


1970ER09      Izv.Akad.Nauk SSSR, Ser.Fiz. 34, 1635 (1970); Bull.Acad.Sci.USSR, Phys.Ser. 34, 1452 (1971)

B.R.Erdal, M.Finger, R.Foucher, J.P.Husson, J.Jastrzebski, A.Johnson, R.Henck, P.Siffert, G.Astner, A.Kjelberg, P.Patzelt

Properties of Low-Lying Levels of Even Isotopes of Pt

RADIOACTIVITY 184,186,188,190,192Au; measured Eγ, Iγ. 184,186,188,190,192Pt deduced levels, J, π, γ-branching. Isolde on-line mass separator.


1970FI16      CERN-70-29 (1970); see 1970FIZZ

M.Finger, R.Foucher, J.P.Husson, J.Jastrzebski, A.Johnson, C.Sebille, R.Henck, J.M.Kuchly, R.Regal, P.Siffert, G.Astner, B.R.Erdal, E.Hagebo, A.Kjelberg, F.Munnich, P.Patzelt, E.Beck, H.Kugler

Main Decay Characteristics of Mercury Isotopes and their Daughter Products (182 < A < 192)


1969HA03      Phys.Lett. 28B, 415 (1969); Erratum Phys.Lett. 28B, 663 (1969)

P.G.Hansen, P.Hornshoj, H.L.Nielsen, K.Wilsky, H.Kugler, G.Astner, E.Hagebo, J.Hudis, A.Kjelberg, F.Munnich, P.Patzelt, M.Alpsten, G.Andersson, A.Appelqvist, B.Bengtsson, R.A.Naumann, O.B.Nielsen, E.Beck, R.Foucher, J.P.Husson, J.Jastrzebski, A.Johnson, J.Alstad, T.Jahnsen, A.C.Pappas, T.Tunaal, R.Henck, P.Siffert, G.Rudstam

Decay Characteristics of Short-Lived Radio-Nuclides Studied by On-Line Isotope Separator Techniques

RADIOACTIVITY 43Ar, 101Cd, 109Sn, 115I, 115Xe, 205,225,226Rn, 224,225,226Fr; measured T1/2. 75Kr, 119I, 119Xe, 186Pt, 186,188Au, 187,188Hg; measured Eγ. 198,200,202Po; measured Iα. 102,103Cd, 116,117,118I, 116,117,118Xe, 184Pt, 184Au; measured T1/2, Eγ. 79,81Kr, 125,127Xe; measured T1/2, Eγ, I(ce). 103Ag; measured T1/2, Eγ, I(ce), γγ-delay. 187,189,191Pt, 189Au, 206Hg; measured Eγ, γγ-delay. 181Hg; measured T1/2, Eα. 182,183,185Hg; measured T1/2, Eα, Iα. 184,186Hg; measured T1/2, Eα, Iα, Eγ. 202,204,206Rn; measured T1/2, Iα. 103Pd, 187,189,191Ir, 189Pt, 206Tl deduced levels, T1/2.

doi: 10.1016/0370-2693(69)90337-2
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1969MO26      Acta Phys.Polon. 36, 203 (1969)

Z.Moroz, J.Jastrzebski, Z.Preibisz, K.Stryczniewicz, P.Paris, J.Treherne

Intensity Rules in the Decay of 172Lu

RADIOACTIVITY 172Lu; measured Eγ, Iγ. 172Yb levels deduced ICC, γ-mixing, B(λ), quadrupole moment.


1968KL12      Phys.Rev.Lett. 20, 743 (1968)

R.Klapisch, J.Chaumont, J.Jastrzebski, R.Bernas, G.N.Simonoff, M.Lagarde

Isotopic Distribution Of Rb And Cs Produced By 10.5 Gev Protons On U, Th, Ta, And Identification Of New Isotopes: 77Rb, 78Rb, 120Cs, 121C, s 122Cs and 124Cs

NUCLEAR REACTIONS Ta(p, x), 232Th(p, x), U(p, x), E=10.4 GeV; measured products, 77Rb, 78Rb, 79Rb, 80Rb, 81Rb, 82Rb, 83Rb, 84Rb, 85 Rb, 86Rb, 87Rb, 88Rb, 89Rb, 90Rb, 91Rb, 92Rb, 93Rb, 94Rb, 95 Rb, 96Rb, 119Cs, 120Cs, 121Cs, 122Cs, 123Cs, 124Cs, 125Cs, 12 6Cs, 127Cs, 128Cs, 129Cs, 130Cs, 131Cs, 132Cs, 139Cs, 140Cs, 141Cs, 142Cs; deduced σ, σ(E). Data were imported from EXFOR entry C0352.

doi: 10.1103/PhysRevLett.20.743
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC0352.


1967AM01      Phys.Letters 24B, 402 (1967)

I.Amarel, R.Bernas, R.Foucher, J.Jastrzebski, A.Johnson, J.Teillac, H.Gauvin

Half Life Determination of Some Short-Lived Isotopes of Rb, Sr, Cs, Ba, La and Identification of 93,94,95,96Rb as Delayed Neutron Precursors by On-Line Mass Spectrometry

NUCLEAR STRUCTURE 95Rb, 95Sr, 94Sr, 94Rb, 96Sr, 96Rb, 92Rb, 91Rb, 93Rb, 90Rb, 141Cs, 143Cs, 144Ba, 144Cs, 144La; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0370-2693(67)90305-X
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1967AM06      Ark.Fys. 36, 77 (1967)

I.Amarel, R.Bernas, J.Chaumont, R.Foucher, J.Jastrzebski, A.Johnson, R.Klapisch, J.Teillac

On-line mass-spectrometric method for the study of short-lived Rb, Cs and Na isotopes

NUCLEAR REACTIONS 12C(p, X)6Li/7Li/8Li/9Li, E not given; 238U(p, F)83Rb/84Rb/85Rb/86Rb/87Rb/88Rb/89Rb/90Rb/91Rb/92Rb/93Rb/94Rb/95Rb/96Rb/97Rb/98Rb, 128Cs/129Cs/130Cs/131Cs/132Cs/133Cs/134Cs/135Cs/136Cs/137Cs/138Cs/139Cs/140Cs/141Cs/142Cs/143Cs/144Cs, E not given; 28Si(p, X)20Na/21Na/22Na/23Na/24Na/25Na, E not given; measured reaction products; deduced mass spectra, T1/2. Comparison with available data.


1967JA10      Nucl.Phys. A104, 459 (1967)

J.Jastrzebski, M.Moszynski, Z.Preibisz, K.Stryczniewicz, P.Paris, J.Treherne

Quadrupole Moment of the Kπ = 0+ Excited State in Odd 172Lu

RADIOACTIVITY 172Hf [from 181Ta(p; xp, xn)]; measured Eγ, Iγ; xe-, Xγ, delay. 172Lu deduced levels, J, π, T1/2, Q0. Natural target.

doi: 10.1016/0375-9474(67)90566-0
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1966FO09      Compt.Rend. 263B, 509 (1966)

A.Fourrier, J.Jastrzebski, P.Paris, P.Kilcher, J.Treherne

Les Coefficients de Conversion K et les Intensites des Transitions dans l'Iridium 189

NUCLEAR STRUCTURE 189Pt; measured not abstracted; deduced nuclear properties.


1966FO13      Compt.Rend. 263B, 1182(1966)

A.Fourrier, J.Jastrzebski, P.Kilcher, P.Paris, J.Treherne

Etude de la Chaine Radioactive de Nombre de Masse 189

NUCLEAR STRUCTURE 189Hg; measured not abstracted; deduced nuclear properties.


1966JA16      Nukleonika 11, 471 (1966)

J.Jastrzebski, M.Moszynski, A.Zglinski

Time-to-Amplitude Converter for the Measurements of Nanosecond Isomers

RADIOACTIVITY 135,137Xe(β-), 145Sm, 167Tm, 173Lu(EC); measured decay products, Eγ, Iγ, γγ(t). 125,127I, 145Pm, 167Er, 173Yb; deduced levels, T1/2.


1965JA06      Nucl.Phys. 67, 271 (1965)

J.Jastrzebski, M.Moszynski, K.Stryczniewicz, A.Zglinski, I.Yutlandov

Life Time of the 55 keV Level in 188Ir

RADIOACTIVITY 188Pt[from Au (660 MeV-p)]; measured Eγ, γ ce-coin, γ ce-delay. 188Ir[from 188Pt], measured Eγ. 188Ir deduced level T1/2.

doi: 10.1016/0029-5582(65)90802-3
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1965JA12      Nucl.Phys. 70, 392 (1965)

J.Jastrzebski, H.Abou-Leila, N.N.Perrin

Lifetime of the First Excited State in Ir189

RADIOACTIVITY 189Pt [from Pt(p, xn) 189Au(decay)]; measured γγ-, γ ce-delay. 189Ir deduced T1/2, B(λ). Natural target.

doi: 10.1016/0029-5582(65)90535-3
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1964JA05      Nucl.Phys. 60, 222 (1964)

J.Jastrzebski, P.Kilcher

La Desintegration du Mercure 190

RADIOACTIVITY 190Hg[from 189Hg(n, γ)]; measured T1/2, γ, ce, ICC, βγ-coin. 190Au[from 190Hg decay]; measured γ, ce. 190Au deduced levels.

doi: 10.1016/0029-5582(64)90657-1
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1964JA09      Compt.Rend.Congr.Intern.Phys.Nucl., Paris, P.Gugenberger, Ed., Centre National de la Recherche Scientifique, Paris, Vol.II, p.573 (1964)

J.Jastrzebski, M.Moszynski, K.Pawlak, K.Stryczniewicz

Les Temps de Vie des Premiers Etats Excites dans 168Er, Yb174, 165Er et 166Tm

RADIOACTIVITY 165,168Er, 174Yb, 166Tm [from Ta(p, X), E=660 MeV]; measured ce(K X-ray)-coin. 165,168Er, 174Yb level deduced T1/2.


1964JA10      Physique Nucleaire Annuaire 1964, Faculte des Sciences de l'Universite de Paris Institut du Radium, p.35(1964)

J.Jastrzebski, H.Abou-Leila, N.Perrin

Mesure de Vies Moyennes

NUCLEAR STRUCTURE 189Pt; measured not abstracted; deduced nuclear properties.


1963JA02      Phys.Letters 3, 289 (1963)

J.Jastrzebski

Probanilities des Transitions des Premiers Etats Excites dans les Noyaux Au193, Au195 et Au197

NUCLEAR STRUCTURE 195Au, 193Au, 197Au; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0031-9163(63)90265-8
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1963JA03      Nucl.Phys. 40, 400 (1963)

J.Jastrzebski, F.Picard, J.P.Schapira, J.L.Picou

NUCLEAR STRUCTURE 12C, 16O; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0029-5582(63)90283-9
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1963JA11      Nucl.Phys. 45, 679 (1963)

J.Jastrzebski, P.Kilcher

La Desintegration du Mercure 192

NUCLEAR STRUCTURE 192Hg; measured not abstracted; deduced nuclear properties.

doi: 10.1016/0029-5582(63)90842-3
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1963JA19      Thesis, Inst.Nucl.Res., Warsaw, Poland (1963); PAN-428-1 (1963)

J.Jastrzebski

Measurements of Lifetimes of Isomeric States in the Nanosecond Range

NUCLEAR STRUCTURE 192Hg, 193Hg, 195Hg, 195Tl, 139Ba, 155Sm; measured not abstracted; deduced nuclear properties.


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