- Postdoctoral Positions, U. Wisconsin, LANL, U. Washington
- Ph.D., Basel, Switzerland, 1971
Hans-Otto Meyer
Professor Emeritus, Physics
Professor Emeritus, Physics
nuclear physics (experimental)
My field of research is experimental nuclear physics. Among other topics, I have studied pion-nucleus total cross sections, pionic atoms, anomalous alpha scattering from medium-weight nuclei, forward dispersion relations in proton-nucleus elastic scattering, nucleon-nucleus elastic scattering and reactions at intermediate energies, effective NN interaction and nuclear matter density, neutral decay modes of the proton-antiproton system at rest, pion production from nuclei and in pp and pd collisions, and few-nucleon bremsstrahlung and capture reactions. In many cases, the emphasis was on the polarization observables of these reactions.
On a technical level, I have experience with all nuclear detection techniques, including the manufacture of lithium-drifted silicon detectors, developing photon-imaging detector for use in nuclear medicine, designing and building liquid hydrogen and superfluid helium targets, and developing a wide range of new technology for experiments with internal targets in cooled, stored beams.
Professor Emeritus, Physics
nuclear physics (experimental)
My field of research is experimental nuclear physics. Among other topics, I have studied pion-nucleus total cross sections, pionic atoms, anomalous alpha scattering from medium-weight nuclei, forward dispersion relations in proton-nucleus elastic scattering, nucleon-nucleus elastic scattering and reactions at intermediate energies, effective NN interaction and nuclear matter density, neutral decay modes of the proton-antiproton system at rest, pion production from nuclei and in pp and pd collisions, and few-nucleon bremsstrahlung and capture reactions. In many cases, the emphasis was on the polarization observables of these reactions.
On a technical level, I have experience with all nuclear detection techniques, including the manufacture of lithium-drifted silicon detectors, developing photon-imaging detector for use in nuclear medicine, designing and building liquid hydrogen and superfluid helium targets, and developing a wide range of new technology for experiments with internal targets in cooled, stored beams.