NSR Query Results
Output year order : Descending NSR database version of May 10, 2024. Search: Author = R.Schuch Found 32 matches. 2008SO20 Phys.Rev. A 78, 012514 (2008) A.Solders, I.Bergstrom, Sz.Nagy, M.Suhonen, R.Schuch Determination of the proton mass from a measurement of the cyclotron frequencies of D and H2+ in a Penning trap ATOMIC MASSES 1,2H; measured cyclotron frequency ratios; derived masses of 2H+ and proton. Penning trap mass spectrometer Smiletrap.
doi: 10.1103/PhysRevA.78.012514
2006FR27 Int.J. Mass Spectrom. 251, 281 (2006) T.Fritioff, I.Bergstrom, Sz.Nagy, A.Solders, M.Suhonen, R.Schuch Precise measurements of ionic masses for QED tests ATOMIC MASSES 24,26Mg, 40,48Ca; measured masses of hydrogen-and lithium-like ions of Mg and Ca with SMILETRAP (Penning trap) mass spectrometer; analyzed binding energies. Comparisons with previous results. 204Hg; measured time of flight spectrum.
doi: 10.1016/j.ijms.2006.02.008
2006NA13 Phys.Rev.Lett. 96, 163004 (2006) Sz.Nagy, T.Fritioff, M.Suhonen, R.Schuch, K.Blaum, M.Bjorkhage, I.Bergstrom New Mass Value for 7Li ATOMIC MASSES 7Li; measured mass. Penning trap spectrometer. Comparison with previous results.
doi: 10.1103/PhysRevLett.96.163004
2006NA18 Eur.Phys.J. D 39, 1 (2006) Sz.Nagy, T.Fritioff, A.Solders, R.Schuch, M.Bjorkhage, I.Bergstrom Precision mass measurement of 40Ca17+ and 40Ca19+ ions in a Penning trap ATOMIC MASSES 40Ca; measured masses for hydrogen-like and lithium-like ions. Penning trap.
doi: 10.1140/epjd/e2006-00064-8
2006NA49 Europhys.Lett. 74, 404 (2006) Sz.Nagy, T.Fritioff, M.Bjorkhage, I.Bergstrom, R.Schuch On the Q-value of the tritium β-decay ATOMIC MASSES 3H, 3He; measured cyclotron frequency ratios; deduced masses, Q-values of the 3H β-decay. Penning trap mass spectrometer Smiletrap.
doi: 10.1209/epl/i2005-10559-2
2006SC38 Hyperfine Interactions 173, 73 (2006) R.Schuch, I.Bergstrom, K.Blaum, T.Fritioff, Sz.Nagy, A.Solders, M.Suhonen Q value related mass determinations using a Penning trap ATOMIC MASSES 7Li, 76Se; measured cyclotron frequency ratios; deduced masses, Q-values of the 6Li(n, γ) reaction and 76Ge 2β-decay. Penning trap mass spectrometer Smiletrap.
doi: 10.1007/s10751-007-9545-0
2004SC28 Phys.Rev. C 70, 014902 (2004) C.Scheidenberger, I.A.Pshenichnov, K.Summerer, A.Ventura, J.P.Bondorf, A.S.Botvina, I.N.Mishustin, D.Boutin, S.Datz, H.Geissel, P.Grafstrom, H.Knudsen, H.F.Krause, B.Lommel, S.P.Moller, G.Munzenberg, R.H.Schuch, E.Uggerhoj, U.Uggerhoj, C.R.Vane, Z.Z.Vilakazi, H.Weick Charge-changing interactions of ultrarelativistic Pb nuclei NUCLEAR REACTIONS H, C, Al, Cu, Sn, Au(208Pb, X), E=158 GeV/nucleon; measured charge-changing σ; deduced reaction mechanism features. Abrasion-ablation model and relativistic electromagnetic dissociation model analysis.
doi: 10.1103/PhysRevC.70.014902
2003BE02 Eur.Phys.J. D 22, 41 (2003) I.Bergstrom, M.Bjorkhage, K.Blaum, H.Bluhme, T.Fritioff, Sz.Nagy, R.Schuch High-precision mass measurements of hydrogen-like 24Mg11+ and 26Mg11+ ions in Penning trap: On the need of precise mass values of hydrogen-like ions in g factor measurements of bound electrons ATOMIC MASSES 24,26Mg; measured masses of hydrogen-like ions. Penning trap. Application to electron g factor determination discussed.
2003FR13 Nucl.Phys. A723, 3 (2003) T.Fritioff, H.Bluhme, R.Schuch, I.Bergstrom, M.Bjorkhage Shedding light on the mercury mass discrepancy by weighing Hg52+ ions in a Penning trap ATOMIC MASSES 198,204Hg; measured masses. Penning trap spectrometer, comparison with previous results.
doi: 10.1016/S0375-9474(03)01228-4
2002BE64 Phys.Scr. 66, 201 (2002) I.Bergstrom, T.Fritioff, R.Schuch, J.Schonfelder On the Masses of 28Si and the Proton Determined in a Penning Trap ATOMIC MASSES 1H, 28Si; measured masses. Penning trap.
doi: 10.1238/Physica.Regular.066a00201
2002BF02 Nucl.Instrum.Methods Phys.Res. A487, 618 (2002) I.Bergstrom, C.Carlberg, T.Fritioff, G.Douysset, J.Schonfelder, R.Schuch SMILETRAP-A Penning trap facility for precision mass measurements using highly charged ions ATOMIC MASSES 1,3H, 3,4He, 20,22Ne, 28Si, 36,40Ar, 76Ge, 76Se, 86Kr, 133Cs, 198,204Hg; measured masses. Penning trap.
doi: 10.1016/S0168-9002(01)02178-7
2002FR18 Eur.Phys.J. A 15, 249 (2002) T.Fritioff, H.Bluhme, R.Schuch, I.Bergstrom, M.Bjorkhage Back to the line of stability: Chasing mass accuracies below 10-9 using a Penning trap and highly charged ions ATOMIC MASSES 3H, 3,4He, 76Ge, 204Hg; measured masses. Penning trap.
doi: 10.1140/epja/i2001-10263-3
2002SC01 Phys.Rev.Lett. 88, 042301 (2002) C.Scheidenberger, I.A.Pshenichnov, T.Aumann, S.Datz, K.Summerer, J.P.Bondorf, D.Boutin, H.Geissel, P.Grafstrom, H.Knudsen, H.F.Krause, B.Lommel, S.P.Moller, G.Munzenberg, R.H.Schuch, E.Uggerhoj, U.Uggerhoj, C.R.Vane, A.Ventura, Z.Z.Vilakazi, H.Weick Electromagnetically Induced Nuclear-Charge Pickup Observed in Ultrarelativistic Pb Collisions NUCLEAR REACTIONS H, C, 27Al, Cu, Sn, 197Au, Pb(208Pb, X), E=158 GeV/nucleon; measured charge-pickup σ; deduced role of electromagnetic processes. Comparison with previous results.
doi: 10.1103/PhysRevLett.88.042301
2001FR18 Eur.Phys.J. D 15, 141 (2001) T.Fritioff, C.Carlberg, G.Douysset, R.Schuch, I.Bergstrom A New Determination of the 4He and 3He Masses in a Penning Trap ATOMIC MASSES 3,4He; measured masses. Penning trap.
doi: 10.1007/s100530170159
2001FR25 Hyperfine Interactions 132, 231 (2001) T.Fritioff, C.Carlberg, G.Douysset, R.Schuch, I.Bergstrom Recent Progress with the SMILETRAP Penning Mass Spectrometer ATOMIC MASSES 3H, 3,4He, 22Ne, 28Si, 36Ar, 76Ge, 76Se, 86Kr, 133Cs; measured masses. 76Ge deduced Q-value for 2β-decay. Penning trap spectrometer.
doi: 10.1023/A:1011991032748
1998BE03 Phys.Scr. 57, 36 (1998) J.Beebe-Wang, N.Elander, R.Schuch A Feasibility Study of 3-D Ordering of Ion Beams in a Storage Ring
doi: 10.1088/0031-8949/57/1/006
1997DA18 Phys.Rev.Lett. 79, 3355 (1997) S.Datz, J.R.Beene, P.Grafstrom, H.Knudsen, H.F.Krause, R.H.Schuch, C.R.Vane Anomalies in the Nuclear Dissociation Cross Sections of 208Pb at 33 TeV NUCLEAR REACTIONS C, Si, Cu, Sn, Pb(208Pb, X), E=33 TeV; measured total disintegration σ; deduced correction term proportional to target Z.
doi: 10.1103/PhysRevLett.79.3355
1996SC20 Acta Phys.Pol. B27, 307 (1996) R.Schuch, S.Asp, C.Biedermann, D.R.DeWitt, H.Gao, J.Hvarfner, E.Justiniano, E.Lindroth, T.Quinteros, W.Zong, G.Andler, H.Danared, A.Kallberg, M.Pajek Reactions of Cooled Ions with Cold Electrons in Cryring
1996SC21 Hyperfine Interactions 99, 83 (1996) T.Schwarz, R.Jertz, J.Stein, I.Bergstrom, H.Borgenstrand, C.Carlberg, G.Rouleau, R.Schuch, F.Soderberg, G.Bollen, H.-J.Kluge, R.Mann SMILETRAP - Atomic Mass Measurements with ppb Accuracy by using Highly Charged Ions NUCLEAR STRUCTURE 86Kr; measured not given; deduced mass. Highly charged ions captured in a Penning trap. ATOMIC PHYSICS 86Kr; measured not given; deduced mass. Highly charged ions captured in a Penning trap.
doi: 10.1007/BF02274911
1993JE06 Phys.Scr. 48, 399 (1993) R.Jertz, D.Beck, G.Bollen, J.Emmes, H.-J.Kluge, E.Schark, S.Schwarz, T.Schwarz, L.Schweikhard, P.Senne, C.Carlberg, I.Bergstrom, H.Borgenstrand, G.Rouleau, R.Schuch, F.Soderberg Direct Determination of the Mass of 28Si as a Contribution to a New Definition of the Kilogram ATOMIC MASSES 28Si; measured mass. Penning trap mass spectrometer.
doi: 10.1088/0031-8949/48/4/003
1992KA09 Z.Phys. D22, 451 (1992) T.Kambara, R.Schuch, Y.Awaya, T.Mizogawa, H.Kumagai, Y.Kanai, H.Shibata, K.Shima Solid-Gas Effect in K-Vacancy Production in Near Symmetric Slow Heavy-Ion-Atom Collisions NUCLEAR REACTIONS Ca, Cu(Ar, X), E=40.6 MeV; measured K-vacancy production probability vs target thickness; deduced L-vacancy process mechanism. (K X-ray-particle)-coincidence measurement.
doi: 10.1007/BF01426086
1990WI20 Z.Phys. D17, 145 (1990) G.Wintermeyer, V.Dangendorf, H.Schmidt-Bocking, T.Kambara, P.H.Mokler, R.Schuch, I.Tserruya Search for Interference Structures in the Quasimolecular X-Ray- and K-Vacancy Production in Close Collisions of 462 MeV Hydrogen-Like Kr Ions on Mo Solid Targets NUCLEAR REACTIONS Mo(Kr, X), E=462 MeV; measured X-ray yields; deduced K-vacancy probability.
doi: 10.1007/BF01437670
1989KA44 J.Phys.Soc.Jpn. 58, 3929 (1989) T.Kambara, T.Mizogawa, Y.Awaya, Y.Kanai, R.Schuch, K.Shima, D.Trautmann Impact Parameter Dependent Probability of Au L3-Shell Ionization by 40.7 MeV Ar Ions NUCLEAR REACTIONS 197Au(40Ar, X), E=40.7 MeV; measured (X-ray)(40Ar)-coin; deduced L-shell ionization probability.
doi: 10.1143/JPSJ.58.3929
1987SC12 Nucl.Instrum.Methods Phys.Res. B24/25, 64 (1987) H.Schmidt-Bocking, J.Ullrich, R.Dorner, K.Dexheimer, S.Kelbch, V.Dangendorf, R.Schuch, S.Zehendner, S.Hagmann, G.B.Baptista L-Subshell Ionization Probabilities in very Asymmetric Ion-Atom Collisions ATOMIC PHYSICS Sm(p, X), E=4 MeV; Yb, Pt(Ne, X), Pt(He, X), E=0.9 MeV/nucleon; measured L-subshell ionization probabilities. Si-Li detectors.
doi: 10.1016/0168-583X(87)90590-8
1987ZE01 Z.Phys. D4, 243 (1987) S.Zehendner, G.B.Baptista, R.Dorner, E.Justiniano, J.Konrad, H.Schmidt-Bocking, R.Schuch Impact Parameter Dependence of the L-Subshell Ionization Probabilities and of the L3-Subshell Alignment Tensor Components in 4 MeV p-Sm Collisions ATOMIC PHYSICS Sm(p, X), E=4 MeV; measured E(L X-ray), I(L X-ray); deduced ionization probabilities impact parameter dependence, alignment tensor components. Si-Li detectors. SCA calculations.
doi: 10.1007/BF01436634
1985SC01 Z.Phys. A320, 185 (1985) R.Schuch, H.Schmidt-Bocking, I.Tserruya, B.M.Johnson, K.W.Jones, M.Meron X-Ray Spectroscopy of Cl-Ar Quasi-Molecular Orbitals from 1sσ-2pπ Transitions ATOMIC PHYSICS Ar(Cl, X), E=2.5, 5, 10, 20 MeV; measured quasimolecular X-ray spectra; deduced quasimolecular transition energy vs internuclear distance.
doi: 10.1007/BF01881266
1984ST22 Z.Phys. A319, 239 (1984) K.E.Stiebing, H.Schmidt-Bocking, W.Schadt, K.Bethge, R.Schuch, P.H.Mokler, F.Bosch, D.Liesen, S.Hagmann, P.Vincent The Impact Parameter Dependence of the K MO X-Ray Emission in 208Pb + 208Pb Collisions. 1sσ- and 2p1/2σ-Excitation Probabilities in Symmetric, Superheavy Collision Molecules ATOMIC PHYSICS 208Pb(208Pb, X), E=4.3, 4.8 MeV/nucleon; measured quasimolecular K X-ray emission probabilities; deduced impact parameter dependences. Particle-photon coincidence technique.
doi: 10.1007/BF01412536
1983JI02 J.Phys.(London) B16, 4405 (1983) W.Jitschin, R.Hippler, K.Finck, R.Schuch, H.O.Lutz L-Subshell Ionization of Au by Light-Ion Impact NUCLEAR REACTIONS Au(α, X), (7Li, X), (9Be, X), (12C, X), (16O, X), (20Ne, X), (28Si, X), (32S, X), E=0.23-6.7 MeV/nucleon; measured E(L X-ray), I(L X-ray); deduced L-subshell ionization σ.
doi: 10.1088/0022-3700/16/23/022
1982SC04 Nucl.Instrum.Methods 192, 71 (1982) H.Schmidt-Bocking, K.E.Stiebing, W.Schadt, N.Lochter, G.Gruber, S.Kelbch, K.Bethge, R.Schuch, I.Tserruya Trajectory, Binding and Relativistic Effects in the K-Shell Ionization Process Investigated by Particle-Photon Coincidences ATOMIC PHYSICS Ag(p, X), (d, X), E=0.9 MeV/nucleon; Ni(p, X), (d, X), E=0.6 MeV/nucleon; Ni(20Ne, X), E=18 MeV; Pb(Cl, X), E=86.9, 135.6 MeV; measured K-shell ionization probabilities, ratios; deduced projectile trajectory, charge, binding energy, relativistic effects. Particle-photon coincidence. First order perturbation theory.
1982WE06 Z.Phys. A305, 91 (1982) Energy Distribution of Electrons Ejected from the Argon K Shell by 6 MeV Protons ATOMIC PHYSICS Ar(p, e), E=6 MeV; measured σ(θ, E(e)). Si-Li detector.
doi: 10.1007/BF01415086
1980LI06 Phys.Rev.Lett. 44, 983 (1980) D.Liesen, P.Armbruster, F.Bosch, S.Hagmann, P.H.Mokler, H.J.Wollersheim, H.Schmidt-Bocking, R.Schuch, J.B.Wilhelmy Experimental Confirmation of a Scaling Law for the 1sσ Excitation Probability for Z1 + Z2 > 120, and its Breakdown in Pb + Cm Collisions At Very Small Internuclear Distances ATOMIC PHYSICS Au(Xe, X), E=3.6-6.8 MeV/nucleon; Cm(Pb, X), E=3.6-5.9 MeV/nucleon; measured (particle)(X-ray)-coin. Au, Cm deduced 1sσ excitation probability. Scaling law fit to all available data.
doi: 10.1103/PhysRevLett.44.983
1979SC29 Z.Phys. A293, 91 (1979) R.Schuch, G.Nolte, B.M.Johnson, K.W.Jones Impact-Parameter Dependence of K-Shell Vacancy Production in Nb-Mo Collisions NUCLEAR REACTIONS Mo(Nb, X), E=1.5 MeV/nucleon; measured (particle)(X-ray)-coin; deduced impact parameter dependence of K-shell vacancy production.
doi: 10.1007/BF01414788
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