NSR Query Results
Output year order : Descending NSR database version of April 24, 2024. Search: Author = G.Rugel Found 25 matches. 2020KO20 Phys.Rev.Lett. 125, 031101 (2020) G.Korschinek, T.Faestermann, M.Poutivtsev, A.Arazi, K.Knie, G.Rugel, A.Wallner Supernova-Produced 53Mn on Earth ATOMIC MASSES 53Mn; measured 53Mn contents in four different crusts; deduced 53Mn/Mn ratio.
doi: 10.1103/PhysRevLett.125.031101
2019PA03 Phys.Rev. C 99, 015801 (2019) S.Pavetich, A.Wallner, M.Martschini, S.Akhmadaliev, I.Dillmann, K.Fifield, S.Halfon, T.Heftrich, F.Kappeler, C.Lederer-Woods, S.Merchel, M.Paul, R.Reifarth, G.Rugel, P.Steier, M.Tessler, S.Tims, M.Weigand, L.Weissman Accelerator mass spectrometry measurement of the reaction 35Cl (n, γ) 36Cl at keV energies NUCLEAR REACTIONS 35Cl(n, γ), kT=2-100 keV; measured Maxwellian averaged σ(E) (MACS) using neutron activation combined with accelerator mass spectrometry (AMS) technique; deduced 36Cl/35Cl ratios for three neutron irradiated samples, MACS at kt=30 keV, and stellar abundances of 35Cl, 36Cl and 36S. Neutron activations performed at the Karlsruhe Van de Graaff accelerator and at the superconducting linear accelerator of the Soreq Applied Research Accelerator Facility using the 7Li(p, n)7Be reaction. AMS measurements of the irradiated samples performed at the 3 MV Vienna Environmental Research Accelerator, the 6 MV tandem accelerator at the Dresden AMS facility, and the 14 UD tandem accelerator of the Australian National University in Canberra. Comparison with previous experimental values, NON-SMOKER and MOST theoretical calculations, compiled KADoNiS database, and evaluated libraries ENDF-B/VII.1, JEFF-3.2, JENDL-4.0 and TENDL-2015.
doi: 10.1103/PhysRevC.99.015801
2018BR02 Nucl.Instrum.Methods Phys.Res. B420, 40 (2018) R.Braucher, K.Keddadouche, G.Aumaitre, D.L.Bourles, M.Arnold, S.Pivot, M.Baroni, A.Scharf, G.Rugel, E.Bard Chlorine measurements at the 5MV French AMS national facility ASTER: Associated external uncertainties and comparability with the 6MV DREAMS facility ATOMIC MASSES 35,36,37Cl; measured environmental samples; deduced isotopic distributions.
doi: 10.1016/j.nimb.2018.01.025
2018FE12 Phys.Rev.Lett. 121, 221103 (2018) J.Feige, A.Wallner, R.Altmeyer, L.K.Fifield, R.Golser, S.Merchel, G.Rugel, P.Steier, S.G.Tims, S.R.Winkler Limits on Supernova-Associated 60Fe/26Al Nucleosynthesis Ratios from Accelerator Mass Spectrometry Measurements of Deep-Sea Sediments ATOMIC MASSES 26Al, 60Fe; measured atom concentration in sediment; deduced isotope ratio. Comparison with nucleosynthesis models and the observed average galactic.
doi: 10.1103/PhysRevLett.121.221103
2017LU03 Phys.Rev. C 95, 035803 (2017) P.Ludwig, G.Rugel, I.Dillmann, T.Faestermann, L.Fimiani, K.Hain, G.Korschinek, J.Lachner, M.Poutivtsev, K.Knie, M.Heil, F.Kappeler, A.Wallner Measurement of the stellar 58Ni(n, γ)59Ni cross section with accelerator mass spectrometry NUCLEAR REACTIONS 58Ni(n, γ)59Ni, kT=25 keV quasistellar neutron spectrum; measured E(n), I(n), neutron flux, 59Ni content by accelerator mass spectrometry (AMS) technique, experimental cross section using gas-filled analyzing magnet system (GAMS) at tandem accelerator of the MLL-Garching; deduced Maxwellian-averaged cross sections (MACS). Comparison with evaluated libraries ENDF/B-VII.1, JEFF-3.2 and JENDL-4.0.
doi: 10.1103/PhysRevC.95.035803
2016RU01 Nucl.Instrum.Methods Phys.Res. B370, 94 (2016) G.Rugel, S.Pavetich, S.Akhmadaliev, S.Miguel E.Baez, A.Scharf, R.Ziegenrucker, S.Merchel The first four years of the AMS-facility DREAMS: Status and developments for more accurate radionuclide data
doi: 10.1016/j.nimb.2016.01.012
2016WA09 Nature(London) 532, 69 (2016) A.Wallner, J.Feige, N.Kinoshita, M.Paul, L.K.Fifield, R.Golser, M.Honda, U.Linnemann, H.Matsuzaki, S.Merchel, G.Rugel, S.G.Tims, P.Steier, T.Yamagata, S.R.Winkler Recent near-Earth supernovae probed by global deposition of interstellar radioactive 60Fe ATOMIC MASSES 60Fe; measured 60Fe/Fe ratios using atomic mass spectroscopy; deduced the rate of supernovae in our local Galactic neighbourhood.
doi: 10.1038/nature17196
2013IR02 Phys.Rev. C 88, 055803 (2013) D.Irvine, A.A.Chen, A.Parikh, K.Setoodehnia, T.Faestermann, R.Hertenberger, H.-F.Wirth, V.Bildstein, S.Bishop, J.A.Clark, C.M.Deibel, J.Hendriks, C.Herlitzius, R.Krucken, W.N.Lennard, O.Lepyoshkina, R.Longland, G.Rugel, D.Seiler, K.Straub, C.Wrede Evidence for the existence of the astrophysically important 6.40-MeV state of 31S NUCLEAR REACTIONS 32S(d, t), E=24 MeV; measured E(t), I(t), σ(θ), using Q3D spectrograph at MLL-Garching facility. 31S; deduced levels, J, π, 31S and 31P mirror assignments. 30P(p, γ)31S; discussed impact on thermonuclear reaction rate in explosive hydrogen burning in classical novae. Comparison of 31S level structure with previous experimental results and evaluated data.
doi: 10.1103/PhysRevC.88.055803
2012LA03 Phys.Rev. C 85, 015801 (2012) J.Lachner, I.Dillmann, T.Faestermann, G.Korschinek, M.Poutivtsev, G.Rugel, C.Lierse von Gostomski, A.Turler, U.Gerstmann Attempt to detect primordial 244Pu on Earth ATOMIC MASSES 244Pu; measured TOF-E(residuals) spectra using AMS technique at MLL, Garching facility. Attempt to detect primordial 244Pu in bastnasite mineral proved negative. Upper limit established, and compared with previous measurement.
doi: 10.1103/PhysRevC.85.015801
2012LU05 Phys.Rev. C 85, 024315 (2012) P.Ludwig, T.Faestermann, G.Korschinek, G.Rugel, I.Dillmann, L.Fimiani, S.Bishop, P.Kumar Search for superheavy elements with 292 ≤ A ≤ 310 in nature with accelerator mass spectrometry ATOMIC MASSES A=292-295, 297-302, 304, 306, 308, 310; measured abundance of SHE in natural platinum, osmium, lead fluoride, using energy loss, and time of flight information. Accelerator mass spectrometry (AMS) technique. No evidence found for the existence of superheavy elements (SHE), upper limits established.
doi: 10.1103/PhysRevC.85.024315
2011WA34 J.Korean Phys.Soc. 59, 1378s (2011) A.Wallner, K.Buczak, C.Lederer, H.Vonach, T.Faestermann, G.Korschinek, M.Poutivtsev, G.Rugel, A.Klix, K.Seidel, A.Plompen, V.Semkova Production of Long-lived Radionuclides 10Be, 14C, 53Mn, 55Fe, 59Ni and 202gPb in a Fusion Environment NUCLEAR REACTIONS 54Fe(n, np), (n, d), (n, 2n), E=13.4-14.8;56Fe(n, 2n), E=13-20 MeV; measured Eγ, Iγ; deduced σ using activation technique. Compared with other data and ENDF/B-VII.
doi: 10.3938/jkps.59.1378
2010DI15 Nucl.Instrum.Methods Phys.Res. B268, 1283 (2010) I.Dillmann, T.Faestermann, G.Korschinek, J.Lachner, M.Maiti, M.Poutivtsev, G.Rugel, S.Walter, F.Kappeler, M.Erhard, A.R.Junghans, C.Nair, R.Schwengner, A.Wagner Solving the stellar 62Ni problem with AMS NUCLEAR REACTIONS 62,64Ni(n, γ), E=30 keV; measured reaction products; deduced Maxwellian-averaged σ and their uncertainties. Comparison with NON-SMOKER calculations.
doi: 10.1016/j.nimb.2009.10.153
2010KO19 Nucl.Instrum.Methods Phys.Res. B268, 187 (2010) G.Korschinek, A.Bergmaier, T.Faestermann, U.C.Gerstmann, K.Knie, G.Rugel, A.Wallner, I.Dillmann, G.Dollinger, Ch.Lierse von Gostomski, K.Kossert, M.Maiti, M.Poutivtsev, A.Remmert A new value for the half-life of 10Be by Heavy-Ion Elastic Recoil Detection and liquid scintillation counting RADIOACTIVITY 10Be(β-); measured electron spectrum; deduced 10Be activity, T1/2. Liquid scintillation counting (LSC). ATOMIC MASSES 9,10Be; measured ion beam intensities; deduced 10Be/9Be isotopic ratio. Heavy-Ion Elastic Recoil Detection (HI-ERD).
doi: 10.1016/j.nimb.2009.09.020
2010WR01 Phys.Rev. C 81, 055503 (2010) C.Wrede, J.A.Clark, C.M.Deibel, T.Faestermann, R.Hertenberger, A.Parikh, H.-F.Wirth, S.Bishop, A.A.Chen, K.Eppinger, A.Garcia, R.Krucken, O.Lepyoshkina, G.Rugel, K.Setoodehnia Toward precise QEC values for the superallowed 0+ → 0+ β decays of T=2 nuclides: The masses of 20Na, 24Al, 28P, and 32Cl NUCLEAR REACTIONS 20Ne, 24Mg, 28Si, 32S, 36Ar(3He, t), E=32 MeV; measured triton spectra using Q3D magnetic spectrograph; deduced levels, Q values, mass excesses. ATOMIC MASSES 20Na, 24Al, 28P, 32Cl; measured mass excesses using (3He, t) reaction. 36Ar(3He, t)36K used for calibration. Comparison with AME-2003.
doi: 10.1103/PhysRevC.81.055503
2010WR02 Phys.Rev. C 82, 035805 (2010) C.Wrede, J.A.Clark, C.M.Deibel, T.Faestermann, R.Hertenberger, A.Parikh, H.-F.Wirth, S.Bishop, A.A.Chen, K.Eppinger, B.M.Freeman, R.Krucken, O.Lepyoshkina, G.Rugel, K.Setoodehnia Properties of 20Na, 24Al, 28P, 32Cl, and 36K for studies of explosive hydrogen burning NUCLEAR REACTIONS 20Ne, 24Mg, 28Si, 32S, 36Ar(3He, t), E=32 MeV; measured E(t), I(t); deduced levels and resonances. 19Ne, 23Mg, 27Si, 31S, 35Ar(p, γ); deduced improved thermonuclear reaction rates. 36Cl, 36Ar, 36K; analyzed A=36, T=1 triplet states. Comparison with previous experiments.
doi: 10.1103/PhysRevC.82.035805
2009FA01 Phys.Lett. B 672, 227 (2009) T.Faestermann, F.Bosch, R.Hertenberger, L.Maier, R.Krucken, G.Rugel Could the GSI decay rate oscillations be observed in a standard electron capture decay experiment? RADIOACTIVITY 180Re(EC), (β+) [from 181Ta(3He, 4n), E=33 MeV]; measured delayed γ spectrum; deduced none oscillation of decay rate.
doi: 10.1016/j.physletb.2009.01.031
2009RU08 Phys.Rev.Lett. 103, 072502 (2009) G.Rugel, T.Faestermann, K.Knie, G.Korschinek, M.Poutivtsev, D.Schumann, N.Kivel, I.Gunther-Leopold, R.Weinreich, M.Wohlmuther New Measurement of the 60Fe Half-Life RADIOACTIVITY 60Fe(β-); measured Eγ, γ; deduced T1/2.
doi: 10.1103/PhysRevLett.103.072502
2008LA14 Phys.Rev. C 78, 064313 (2008) J.Lachner, I.Dillmann, T.Faestermann, G.Korschinek, M.Poutivtsev, G.Rugel Search for long-lived isomeric states in neutron-deficient thorium isotopes ATOMIC MASSES 211,213,217,218Th; measured mass of Th sample to determine existence of long-lived isomers, upper limits of existence of isomers.
doi: 10.1103/PhysRevC.78.064313
2007RU09 Nucl.Instrum.Methods Phys.Res. B259, 683 (2007) G.Rugel, I.Dillmann, T.Faestermann, M.Heil, F.Kappeler, K.Knie, G.Korschinek, W.Kutschera, M.Poutivtsev, A.Wallner Measurement of (n, γ) reaction cross sections at stellar energies for 58Ni and 78Se NUCLEAR REACTIONS 58Ni(n, γ), 78Se(n, γ), E ≈ 0-100 keV; measured cross sections using accelerator mass spectrometry. Quasi-stellar neutron spectrum.
doi: 10.1016/j.nimb.2007.01.206
2006AR12 Phys.Rev. C 74, 025802 (2006) A.Arazi, T.Faestermann, J.O.Fernandez Niello, K.Knie, G.Korschinek, M.Poutivtsev, E.Richter, G.Rugel, A.Wallner Measurement of 25Mg(p, γ)26Alg resonance strengths via accelerator mass spectrometry NUCLEAR REACTIONS 25Mg(p, γ), E(cm)=189, 304, 374, 418 keV; measured yields; deduced resonance strengths. Accelerator mass spectrometry. Astrophysical implications discussed.
doi: 10.1103/PhysRevC.74.025802
2003FE11 Braz.J.Phys. 33, 218 (2003) J.O.Fernandez Niello, A.Arazi, T.Faestermann, K.Knie, G.Korschinek, E.Richter, G.Rugel, A.Wallner An Alternative Method for the Measurement of Stellar Nuclear-Reaction Rates NUCLEAR REACTIONS 25Mg(p, γ), E ≈ 316, 389, 434 keV; measured yields; deduced resonance strength. Accelerator mass spectrometry.
doi: 10.1590/s0103-97332003000200009
2003KN01 Nucl.Phys. A723, 343 (2003) K.Knie, A.Elhardt, T.Faestermann, G.Korschinek, C.Lierse, G.Rugel, A.Stippschild Search for A = 60 fragments from neutron-induced fission with accelerator mass spectrometry NUCLEAR REACTIONS 235U(n, F)60Fe, E=reactor; measured fission yield upper limit. 59Fe(n, γ), E=reactor; measured σ. Chemical extraction, accelerator mass spectrometry. Comparison with previous results.
doi: 10.1016/S0375-9474(03)01435-0
2003RU05 Eur.Phys.J. A 17, 633 (2003) W.Ruhm, G.Rugel, T.Faestermann, K.Knie, A.Wallner, B.Heisinger, E.Nolte, A.A.Marchetti, R.E.Martinelli, K.L.Carroll, G.Korschinek Cosmic-ray-induced 63Ni - A potential confounder of fast-neutron-induced 63Ni in copper samples from Hiroshima
doi: 10.1140/epja/i2003-10034-2
2000ME31 Nucl.Instrum.Methods Phys.Res. B 172, 806 (2000) S.Merchel, T.Faestermann, U.Herpers, K.Knie, G.Korschinek, I.Leya, R.Michel, G.Rugel, C.Wallner Thin- and thick-target cross sections for the production of 53Mn and 60Fe NUCLEAR REACTIONS Fe(p, x), Ni(p, x), E=17.2 MeV-2.6 GeV; measured products, 53Mn, 60Fe; deduced σ, σ(E). Data were imported from EXFOR entry O1229.
doi: 10.1016/S0168-583X(00)00105-1
2000ME32 Nucl.Instrum.Methods Phys.Res. B 172, 806 (2000) S.Merchel, T.Faestermann, U.Herpers, K.Knie, G.Korschinek, I.Leya, R.Michel, G.Rugel, C.Wallner Thin- and thick-target cross sections for the production of Mn-53 and Fe-60
doi: 10.1016/S0168-583X(00)00105-1
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