NSR Query Results
Output year order : Descending NSR database version of April 27, 2024. Search: Author = D.Lange Found 8 matches. 2023HE18 Phys.Rev.Lett. 131, 253002 (2023) F.Heisse, M.Door, T.Sailer, P.Filianin, J.Herkenhoff, C.M.Konig, K.Kromer, D.Lange, J.Morgner, A.Rischka, Ch.Schweiger, B.Tu, Y.N.Novikov, S.Eliseev, S.Sturm, K.Blaum High-Precision Determination of g Factors and Masses of 20Ne9+ and 22Ne9+ ATOMIC MASSES 20,22Ne; measured the cyclotron-frequency ratio; deduced individual bound electron g factors, atomic masses. Comparison with available data. The PENTATRAP and A LPHATRAP experiments are both cryogenic Penning-trap setups located at the Max Planck Institute for Nuclear Physics in Heidelberg.
doi: 10.1103/PhysRevLett.131.253002
2023NI10 Phys.Rev.Lett. 131, 222503 (2023) L.Nies, L.Canete, D.D.Dao, S.Giraud, A.Kankainen, D.Lunney, F.Nowacki, B.Bastin, M.Stryjczyk, P.Ascher, K.Blaum, R.B.Cakirli, T.Eronen, P.Fischer, M.Flayol, V.Girard Alcindor, A.Herlert, A.Jokinen, A.Khanam, U.Koster, D.Lange, I.D.Moore, M.Muller, M.Mougeot, D.A.Nesterenko, H.Penttila, C.Petrone, I.Pohjalainen, A.de Roubin, V.Rubchenya, Ch.Schweiger, L.Schweikhard, M.Vilen, J.Aysto Further Evidence for Shape Coexistence in 79Znm near Doubly Magic 78Ni ATOMIC MASSES 79Zn; measured frequencies, TOF; deduced the excitation energy of the 1/2+ isomer, the bandhead of a low-lying deformed structure akin to a predicted low-lying deformed band, shape coexistence. Comparison with state-of-the-art shell-model diagonalizations, complemented with discrete nonorthogonal shell-model calculations. The time-of-flight ion cyclotron resonance (TOF-ICR) method, the JYFLTRAP double Penning trap at the ion guide isotope separator on-line (IGISOL) facility in Jyvaskyla (Finland), and the multi-reflection time-of-flight mass spectrometer (MR-TOF MS) of ISOLTRAP at ISOLDE at CERN (Switzerland).
doi: 10.1103/PhysRevLett.131.222503
2022KR04 Eur.Phys.J. A 58, 202 (2022); Erratum Eur.Phys.J. A 60, (2024) K.Kromer, C.Lyu, M.Door, P.Filianin, Z.Harman, J.Herkenhoff, W.Huang, C.H.Keitel, D.Lange, Y.N.Novikov, C.Schweiger, S.Eliseev, K.Blaum High-precision mass measurement of doubly magic 208Pb ATOMIC MASSES 208Pb, 132Xe; measured the cyclotron-frequency ratio; deduced absolute atomic mass. The ab initio fully relativistic multi-configuration Dirac–Hartree–Fock (MCDHF) calculations. Comparison with AME 2020. The high-precision Penning-trap mass spectrometer Pentatrap.
doi: 10.1140/epja/s10050-022-00860-1
2021FI03 Phys.Rev.Lett. 127, 072502 (2021) P.Filianin, C.Lyu, M.Door, K.Blaum, W.J.Huang, M.Haverkort, P.Indelicato, C.H.Keitel, K.Kromer, D.Lange, Y.N.Novikov, A.Rischka, R.X.Schussler, Ch.Schweiger, S.Sturm, S.Ulmer, Z.Harman, S.Eliseev Direct Q-Value Determination of the β- Decay of 187Re ATOMIC MASSES 187Os, 187Re; measured cyclotron frequency ratio; deduced mass difference, β-decay Q-value. Comparison with AME-2016 evaluation.
doi: 10.1103/PhysRevLett.127.072502
1967MI12 KFK-562 (1967) W.Michaelis, U.Fanger, D.Lange, G.Markus, H.Schmidt, C.Weitkamp Koinzidenzexperimente bei Neutroneneinfangreaktionen NUCLEAR REACTIONS 57Fe, 164Dy, 168Yb(n, γ), E=thermal; measured Eγ, Iγ, γγ-coin. 58Fe, 165Dy, 169Yb deduced levels. 87Sr(n, γ), E=thermal; measured γγ(θ). 88Sr deduced levels, J, π.
1965EC01 Z.Physik 188, 47 (1965) H.G.Eckert, W.Haupt, D.Lange, A.Flammersfeld Der Zerfall des Mn52m NUCLEAR STRUCTURE 52Mn; measured not abstracted; deduced nuclear properties.
doi: 10.1007/BF01349869
1965HA23 Z.Physik 188, 256 (1965) W.Haupt, D.Lange, H.G.Eckert, A.Flammersfeld Der Zerfall des Co55, T1/2 = 18h NUCLEAR STRUCTURE 55Co; measured not abstracted; deduced nuclear properties.
doi: 10.1007/BF01325936
1965LA05 Z.Physik 183, 90 (1965) Untersuchung des Iridium-191m-Zerfalls NUCLEAR STRUCTURE 191Os; measured not abstracted; deduced nuclear properties.
doi: 10.1007/BF01384438
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