His primary scientific interests are in Atomic physics, Nuclear physics, Neutron, Ion and Nucleon. His Atomic physics research incorporates elements of Dipole and Proton. His studies in Nuclear physics integrate themes in fields like Storage ring and Projectile.
As a member of one scientific family, he mostly works in the field of Neutron, focusing on Valence and, on occasion, Nuclear drip line. H. Geissel focuses mostly in the field of Ion, narrowing it down to matters related to Electron and, in some cases, Beta decay. His Nucleon study which covers Beam that intersects with Excitation.
H. Geissel spends much of his time researching Atomic physics, Nuclear physics, Neutron, Ion and Isotope. The concepts of his Atomic physics study are interwoven with issues in Fragmentation and Excitation. His Nuclear physics research integrates issues from Beam and Projectile.
H. Geissel has researched Neutron in several fields, including Nuclear reaction, Dipole, Halo, Nuclear fusion and Hadron. His Ion course of study focuses on Mass spectrometry and Nuclide. His research integrates issues of Scattering and Glauber in his study of Proton.
His scientific interests lie mostly in Atomic physics, Nuclear physics, Neutron, Isotope and Proton. His Atomic physics study integrates concerns from other disciplines, such as Ion, Spectroscopy, Excitation and Coulomb. His research on Nuclear physics frequently connects to adjacent areas such as Beam.
His Neutron research is multidisciplinary, incorporating elements of Valence, Halo, r-process and Nucleon. His Isotope study incorporates themes from Uranium and Quadrupole. He interconnects Charge, Scattering, Glauber and Cross section in the investigation of issues within Proton.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Mass measurement of cooled neutron-deficient bismuth projectile fragments with time-resolved Schottky mass spectrometry at the FRS-ESR facility
Yu.A. Litvinov;H. Geissel;T. Radon;F. Attallah.
Nuclear Physics (2005)
Evidence for Pygmy and Giant Dipole Resonances in Sn 130 and Sn 132
P. Adrich;A. Klimkiewicz;M. Fallot.
Physical Review Letters (2005)
Nuclear symmetry energy and neutron skins derived from pygmy dipole resonances
A. Klimkiewicz;N. Paar;P. Adrich;M. Fallot.
Physical Review C (2007)
Continuum excitations in 6 He
T. Aumann;T. Aumann;T. Aumann;D. Aleksandrov;L. Axelsson;T. Baumann.
Physical Review C (1999)
The Super-FRS project at GSI
H. Geissel;H. Weick;M. Winkler;G. Münzenberg.
Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms (2003)
Invariant-mass spectroscopy of 10Li and 11Li
M. Zinser;F. Humbert;Thomas Nilsson;W. Schwab.
Nuclear Physics (1997)
Measurements of interaction cross sections for light neutron-rich nuclei at relativistic energies and determination of effective matter radii
A. Ozawa;O. Bochkarev;L. Chulkov;D. Cortina.
Nuclear Physics (2001)
First evidence for the two-proton decay of 45 Fe
M. Pfützner;E. Badura;C. Bingham;B. Blank.
European Physical Journal A (2002)
Precision spectroscopy of pionic 1s states of Sn nuclei and evidence for partial restoration of chiral symmetry in the nuclear medium.
K. Suzuki;M. Fujita;H. Geissel;H. Gilg.
Physical Review Letters (2004)
Neutron skin of Na isotopes studied via their interaction cross sections.
T. Suzuki;H. Geissel;O. Bochkarev;L. Chulkov.
Physical Review Letters (1995)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: