D. Savran
Frankfurt Institute for Advanced Studies
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Publication
Featured researches published by D. Savran.
Physical Review C | 2011
D. Savran; M. Elvers; J. Enders; M. Fritzsche; B. Löher; N. Pietralla; V. Yu. Ponomarev; C. Romig; L. Schnorrenberger; K. Sonnabend; A. Zilges
The low-lying electric dipole (
Physical Review C | 2014
A. Hennig; M. Spieker; V. Werner; T. Ahn; V. Anagnostatou; N. Cooper; V. Derya; M. Elvers; J. Endres; P. Goddard; A. Heinz; R.O. Hughes; G. Ilie; M. N. Mineva; P. Petkov; S. G. Pickstone; N. Pietralla; D. Radeck; T. J. Ross; D. Savran; A. Zilges
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Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
B. Löher; V. Derya; T. Aumann; J. Beller; N. Cooper; M. Duchêne; J. Endres; E. Fiori; J. Isaak; J. H. Kelley; M. Knörzer; N. Pietralla; C. Romig; D. Savran; M. Scheck; H. Scheit; J. Silva; A. P. Tonchev; W. Tornow; H. R. Weller; V. Werner; A. Zilges
) strength in the semimagic nucleus
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2002
C. Hutter; Mario Babilon; W. Bayer; D. Galaviz; T. Hartmann; Peter Mohr; S. Müller; W. Rochow; D. Savran; K. Sonnabend; Karsten Vogt; S. Volz; A. Zilges
{}^{136}
Physical Review C | 2008
J. Hasper; Sebastian Müller; D. Savran; Linda Schnorrenberger; K. Sonnabend; A. Zilges
Xe has been measured, which finalizes the systematic survey to investigate the so-called pygmy dipole resonance (PDR) in all stable even
Physical Review C | 2008
E.-W. Grewe; C. Bäumer; H. Dohmann; D. Frekers; M.N. Harakeh; S. Hollstein; H. Johansson; K. Langanke; G. Martínez-Pinedo; F. Nowacki; I. Petermann; L. Popescu; S. Rakers; D. Savran; K. Sieja; H. Simon; J. H. Thies; A. M. van den Berg; H.J. Wörtche; A. Zilges
N=82
Physical Review C | 2016
H. Pai; T. Beck; J. Beller; R. Beyer; Megha Bhike; V. Derya; U. Gayer; J. Isaak; Krishichayan; J. Kvasil; B. Löher; V. O. Nesterenko; N. Pietralla; G. Martínez-Pinedo; L. Mertes; V. Yu. Ponomarev; P.-G. Reinhard; A. Repko; P. Ries; C. Romig; D. Savran; R. Schwengner; W. Tornow; V. Werner; J. Wilhelmy; A. Zilges; M. Zweidinger
isotones with the method of nuclear resonance fluorescence using real photons in the entrance channel. In all cases, a fragmented resonance-like structure of
Journal of Instrumentation | 2015
A. Blanco; J. Adamczewski-Musch; K. Boretzky; P. Cabanelas; L. Cartegni; R. Ferreira Marques; P. Fonte; J. Fruehauf; D. Galaviz; M. Heil; A. Henriques; G. Ickert; D. Körper; L. Lopes; M. Palka; A. Pereira; D. Rossi; H. Simon; P. Teubig; M. Traxler; P. Velho; L. Atar; T. Aumann; D. Bemmerer; C. Caesar; Alexandre Charpy; Z. Elekes; E. Fiori; I. Gasparic; J. Gerbig
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IEEE Transactions on Nuclear Science | 2014
T. Petrovič; M. Vencelj; M. Lipoglavšek; Roman Novak; D. Savran
strength is observed in the energy region 5--8 MeV. An analysis of the fragmentation of the strength reveals that the degree of fragmentation decreases toward the proton-deficient isotones, while the total integrated strength increases, indicating a dependence of the total strength on the neutron-to-proton ratio. The experimental results are compared to microscopic calculations within the quasiparticle phonon model. The calculation includes complex configurations of up to three phonons and is able to reproduce also the fragmentation of the
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
R. Wirth; E. Fiori; B. Löher; D. Savran; J. Silva; H. Alvarez Pol; D. Cortina Gil; B. Pietras; T. Bloch; T. Kröll; E. Nácher; A. Perea; Olof Tengblad; M. Bendel; M. Dierigl; R. Gernhäuser; T. Le Bleis; M. Winkel
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